#include <3rdparty/oranE2/RANfunctions-List.h>
#include "sctpThread.h"
#include "BuildRunName.h"
-
+#include <unistd.h>
//#include "3rdparty/oranE2SM/E2SM-gNB-NRT-RANfunction-Definition.h"
//#include "BuildXml.h"
//#include "pugixml/src/pugixml.hpp"
+#include <pthread.h>
+#include <sys/time.h>
+#include <sys/inotify.h>
+#include <errno.h>
+#include <sys/stat.h>
+#include <arpa/inet.h>
using namespace std;
//using namespace std::placeholders;
// need to expose without the include of gcov
extern "C" void __gcov_flush(void);
+#define LOG_FILE_CONFIG_MAP "CONFIG_MAP_NAME"
+#define E2AP_PPID 70 // as per E2GAP chapter 6.1
static void catch_function(int signal) {
__gcov_flush();
BOOST_LOG_INLINE_GLOBAL_LOGGER_DEFAULT(my_logger, src::logger_mt)
boost::shared_ptr<sinks::synchronous_sink<sinks::text_file_backend>> boostLogger;
-double cpuClock = 0.0;
+// double cpuClock = 0.0;
bool jsonTrace = false;
+std::map<std::string, E2NodeConnectionHandling> connectionHandlingPerE2NodeMap;
+
+char* getinterfaceip()
+{
+ char hostname[256];
+ char *IP;
+ struct hostent *host_entry;
+ int retVal;
+ retVal = gethostname(hostname, sizeof(hostname));
+ if ( retVal == -1 )
+ return NULL;
+ host_entry = gethostbyname(hostname);
+ if ( host_entry == NULL )
+ return NULL;
+ IP = inet_ntoa(*((struct in_addr*) host_entry->h_addr_list[0]));
+ return IP;
+}
+
+
+static int enable_log_change_notify(const char* fileName)
+{
+ int ret = -1;
+ struct stat fileInfo;
+ if ( lstat(fileName,&fileInfo) == 0 )
+ {
+ ret = register_log_change_notify(fileName);
+ }
+ return ret;
+}
+
+
+static int register_log_change_notify(const char *fileName)
+{
+ pthread_attr_t cb_attr;
+ pthread_t tid;
+ pthread_attr_init(&cb_attr);
+ pthread_attr_setdetachstate(&cb_attr,PTHREAD_CREATE_DETACHED);
+ return pthread_create(&tid, &cb_attr,&monitor_loglevel_change_handler,(void *)fileName);
+}
+
+
+static void * monitor_loglevel_change_handler(void* arg)
+{
+ char *fileName = (char*) arg;
+ int ifd; // the inotify file des
+ int wfd; // the watched file des
+ ssize_t n = 0;
+ char rbuf[4096]; // large read buffer as the event is var len
+ fd_set fds;
+ int res = 0;
+ char* dname=NULL; // directory name
+ char* bname = NULL; // basename
+ char* tok=NULL;
+ char* log_level=NULL;
+
+ dname = strdup( fileName ); // defrock the file name into dir and basename
+ if( (tok = strrchr( dname, '/' )) != NULL ) {
+ *tok = '\0';
+ bname = strdup( tok+1 );
+ }
+
+ ifd = inotify_init1( 0 ); // initialise watcher setting blocking read (no option)
+ if( ifd < 0 ) {
+ fprintf( stderr, "### ERR ### unable to initialise file watch %s\n", strerror( errno ) );
+ } else {
+ wfd = inotify_add_watch( ifd, dname, IN_MOVED_TO | IN_CLOSE_WRITE ); // we only care about close write changes
+
+ if( wfd < 0 ) {
+ fprintf( stderr, "### ERR ### unable to add watch on config file %s: %s\n", fileName, strerror( errno ) );
+ } else {
+ FD_ZERO (&fds);
+ FD_SET (ifd, &fds);
+ while( 1 ) {
+ res = select (ifd + 1, &fds, NULL, NULL, NULL);
+ if(res)
+ {
+ n = read( ifd, rbuf, sizeof( rbuf ) ); // read the event
+ if( n < 0 ) {
+#if !(defined(UNIT_TEST) || defined(MODULE_TEST))
+ if( errno == EAGAIN ) {
+ } else {
+ fprintf( stderr, "### CRIT ### config listener read err: %s\n", strerror( errno ) );
+ }
+ continue;
+#endif
+ }
+
+ //Retrieving Log Level from configmap by parsing configmap file
+ log_level = parse_file(fileName);
+ update_mdc_log_level_severity(log_level); //setting log level
+ if(log_level != NULL) {
+ mdclog_write(MDCLOG_INFO, "MDC log level updated to %s", log_level);
+ free(log_level);
+ }
+ }
+ }
+ inotify_rm_watch(ifd,wfd);
+ }
+ close(ifd);
+ }
+ free(bname);
+ free(dname);
+ free(fileName);
+
+ pthread_exit(NULL);
+}
+
+void update_mdc_log_level_severity(char* log_level)
+{
+ mdclog_severity_t level = MDCLOG_ERR;
+
+ if(log_level == NULL)
+ {
+ printf("### ERR ### Invalid Log-Level Configuration in ConfigMap, Default Log-Level Applied: %d\n",level);
+ }
+ else if(strcasecmp(log_level,"1")==0)
+ {
+ level = MDCLOG_ERR;
+ }
+ else if(strcasecmp(log_level,"2")==0)
+ {
+ level = MDCLOG_WARN;
+ }
+ else if(strcasecmp(log_level,"3")==0)
+ {
+ level = MDCLOG_INFO;
+ }
+ else if(strcasecmp(log_level,"4")==0)
+ {
+ level = MDCLOG_DEBUG;
+ }
+
+ mdclog_level_set(level);
+}
+
+/**
+ * @brief Remove leading and trailing spaces from s.
+ *
+ * If the string was allocated dynamically, the caller cannot
+ * overwrite the returned pointer.
+ *
+ * @param s the string we want to remove spaces.
+ * @return Returns a null-terminated substring of "s".
+ */
+static inline char *trim(char *s)
+{
+ char *end;
+ /* skip leading spaces */
+ while (isspace(*s)) s++;
+
+ /* all spaces */
+ if (*s == '\0') return s;
+
+ /* skip trailing spaces */
+ end = s + strlen(s) - 1;
+ while (end > s && isspace(*end)) end--;
+
+ /* write null character */
+ *(end+1) = '\0';
+
+ return s;
+}
+
+static char* parse_file(char* filename)
+{
+ char *token=NULL;
+ bool found = false;
+ FILE *file = fopen ( filename, "r" );
+
+ if ( file != NULL )
+ {
+ char line [ 128 ];
+ while ( fgets ( line, sizeof(line), file ) != NULL )
+ {
+ token = strtok(line, ":");
+ token = trim(token);
+ if (strcmp(token,"log-level") == 0) {
+ found = true;
+ token = strtok(NULL, "\n");
+ token = trim(token);
+ break;
+ }
+ }
+ fclose ( file );
+ }
+ if(found)
+ return(strdup(token));
+ else
+ return(NULL);
+}
+
+char *read_env_param(const char*envkey)
+{
+ if(envkey)
+ {
+ char *value = getenv(envkey);
+ if(value)
+ return strdup(value);
+ }
+ return NULL;
+}
+
+void dynamic_log_level_change()
+{
+ char *logFile_Name = read_env_param(LOG_FILE_CONFIG_MAP);
+ char* log_level_init=NULL;
+ if(logFile_Name)
+ {
+ log_level_init = parse_file(logFile_Name);
+ update_mdc_log_level_severity(log_level_init); //setting log level
+ mdclog_write(MDCLOG_INFO, "MDC log level set to %s", log_level_init);
+ free(log_level_init);
+
+ }
+ enable_log_change_notify(logFile_Name);
+}
void init_log() {
+ int log_change_monitor = 0;
mdclog_attr_t *attr;
mdclog_attr_init(&attr);
mdclog_attr_set_ident(attr, "E2Terminator");
mdclog_init(attr);
+ if(mdclog_format_initialize(log_change_monitor)!=0)
+ mdclog_write(MDCLOG_ERR, "Failed to intialize MDC log format !!!");
+ dynamic_log_level_change();
mdclog_attr_destroy(attr);
}
-auto start_time = std::chrono::high_resolution_clock::now();
-typedef std::chrono::duration<double, std::ratio<1,1>> seconds_t;
+//auto start_time = std::chrono::high_resolution_clock::now();
+//typedef std::chrono::duration<double, std::ratio<1,1>> seconds_t;
-double age() {
- return seconds_t(std::chrono::high_resolution_clock::now() - start_time).count();
-}
+//double age() {
+// return seconds_t(std::chrono::high_resolution_clock::now() - start_time).count();
+//}
-double approx_CPU_MHz(unsigned sleepTime) {
- using namespace std::chrono_literals;
- uint32_t aux = 0;
- uint64_t cycles_start = rdtscp(aux);
- double time_start = age();
- std::this_thread::sleep_for(sleepTime * 1ms);
- uint64_t elapsed_cycles = rdtscp(aux) - cycles_start;
- double elapsed_time = age() - time_start;
- return elapsed_cycles / elapsed_time;
-}
+// If model name in "/proc/cpuinfo" is happens to be "Common KVM processor" then
+// approx_CPU_MHz() results in "SIGILL - Illegal Instruction" signal.
+//
+// double approx_CPU_MHz(unsigned sleepTime) {
+// using namespace std::chrono_literals;
+// uint32_t aux = 0;
+// uint64_t cycles_start = rdtscp(aux);
+// double time_start = age();
+// std::this_thread::sleep_for(sleepTime * 1ms);
+// uint64_t elapsed_cycles = rdtscp(aux) - cycles_start;
+// double elapsed_time = age() - time_start;
+// return elapsed_cycles / elapsed_time;
+//}
//std::atomic<int64_t> rmrCounter{0};
std::atomic<int64_t> num_of_messages{0};
std::atomic<int64_t> num_of_XAPP_messages{0};
static long transactionCounter = 0;
+pthread_mutex_t thread_lock;
int buildListeningPort(sctp_params_t &sctpParams) {
sctpParams.listenFD = socket(AF_INET6, SOCK_STREAM, IPPROTO_SCTP);
if (sctpParams.listenFD <= 0) {
+#if !(defined(UNIT_TEST) || defined(MODULE_TEST))
mdclog_write(MDCLOG_ERR, "Error Opening socket, %s", strerror(errno));
return -1;
+#endif
}
+ struct sctp_initmsg initmsg;
+ memset (&initmsg, 0, sizeof (initmsg));
+ initmsg.sinit_num_ostreams = 2;
+ initmsg.sinit_max_instreams = 2;
+ initmsg.sinit_max_attempts = 4;
+ setsockopt (sctpParams.listenFD, IPPROTO_SCTP, SCTP_INITMSG, &initmsg, sizeof (initmsg));
struct sockaddr_in6 serverAddress {};
serverAddress.sin6_family = AF_INET6;
serverAddress.sin6_addr = in6addr_any;
serverAddress.sin6_port = htons(sctpParams.sctpPort);
if (bind(sctpParams.listenFD, (SA *)&serverAddress, sizeof(serverAddress)) < 0 ) {
+#if !(defined(UNIT_TEST) || defined(MODULE_TEST))
mdclog_write(MDCLOG_ERR, "Error binding port %d. %s", sctpParams.sctpPort, strerror(errno));
return -1;
+#endif
}
if (setSocketNoBlocking(sctpParams.listenFD) == -1) {
//mdclog_write(MDCLOG_ERR, "Error binding. %s", strerror(errno));
mdclog_write(MDCLOG_DEBUG, "My address: %s, port %d\n", buff, htons(clientAddress.sin6_port));
}
+ // SCTP_HB_INTERVAL is in milisec
+ char *sctp_hb_interval = std::getenv("SCTP_HB_INTERVAL");
+ if (sctp_hb_interval) {
+ // Setting the heartbeat interval timeout value
+ struct sctp_paddrparams sckt_parms;
+ memset(&sckt_parms, 0, sizeof(sckt_parms));
+ unsigned int sckt_parms_size = sizeof(sckt_parms);
+ sckt_parms.spp_address.ss_family = AF_INET6;
+ sckt_parms.spp_flags |= SPP_HB_ENABLE;
+ sctp_opt_info(sctpParams.listenFD, 0, SCTP_PEER_ADDR_PARAMS, &sckt_parms, &sckt_parms_size);
+ if (sckt_parms_size != sizeof(sckt_parms)) {
+ fprintf(stderr, "Invalid size of sctp_paddrparams socket option: {} / {}", sckt_parms_size, (socklen_t)sizeof(sckt_parms));
+ } else {
+ sckt_parms.spp_hbinterval = atoi(sctp_hb_interval);
+ setsockopt(sctpParams.listenFD, IPPROTO_SCTP, SCTP_PEER_ADDR_PARAMS, &sckt_parms, sizeof(sckt_parms));
+ }
+ }
+
+ char *sctp_max_retries = std::getenv("SCTP_MAX_RETRIES");
+ if (sctp_max_retries) {
+ // Setting the max retries config for the socket if rechability loss
+ struct sctp_assocparams sckt_assoc;
+ memset(&sckt_assoc, 0, sizeof(sckt_assoc));
+ unsigned int str_assoc_size = sizeof(sckt_assoc);
+ sctp_opt_info(sctpParams.listenFD, 0, SCTP_ASSOCINFO, &sckt_assoc, &str_assoc_size);
+ if (str_assoc_size != sizeof(sckt_assoc)) {
+ fprintf(stderr, "Invalid size of sctp_assocparams socket option: {} / {}", str_assoc_size, (socklen_t)sizeof(sckt_assoc));
+ } else {
+ sckt_assoc.sasoc_asocmaxrxt = atoi(sctp_max_retries);
+ setsockopt(sctpParams.listenFD, IPPROTO_SCTP, SCTP_ASSOCINFO, &sckt_assoc, sizeof(sckt_assoc));
+ }
+ }
+
+
if (listen(sctpParams.listenFD, SOMAXCONN) < 0) {
+#if !(defined(UNIT_TEST) || defined(MODULE_TEST))
mdclog_write(MDCLOG_ERR, "Error listening. %s\n", strerror(errno));
return -1;
+#endif
}
struct epoll_event event {};
event.events = EPOLLIN | EPOLLET;
// add listening port to epoll
if (epoll_ctl(sctpParams.epoll_fd, EPOLL_CTL_ADD, sctpParams.listenFD, &event)) {
+#if !(defined(UNIT_TEST) || defined(MODULE_TEST))
printf("Failed to add descriptor to epoll\n");
mdclog_write(MDCLOG_ERR, "Failed to add descriptor to epoll. %s\n", strerror(errno));
return -1;
+#endif
}
return 0;
const int size = 2048;
auto fileSize = file_size(p);
if (fileSize > size) {
+#if !(defined(UNIT_TEST) || defined(MODULE_TEST))
mdclog_write(MDCLOG_ERR, "File %s larger than %d", p.string().c_str(), size);
return -1;
+#endif
}
} else {
+#if !(defined(UNIT_TEST) || defined(MODULE_TEST))
mdclog_write(MDCLOG_ERR, "Configuration File %s not exists", p.string().c_str());
return -1;
+#endif
}
ReadConfigFile conf;
if (conf.openConfigFile(p.string()) == -1) {
+#if !(defined(UNIT_TEST) || defined(MODULE_TEST))
mdclog_write(MDCLOG_ERR, "Filed to open config file %s, %s",
p.string().c_str(), strerror(errno));
return -1;
+#endif
}
int rmrPort = conf.getIntValue("nano");
if (rmrPort == -1) {
+#if !(defined(UNIT_TEST) || defined(MODULE_TEST))
mdclog_write(MDCLOG_ERR, "illegal RMR port ");
return -1;
+#endif
}
sctpParams.rmrPort = (uint16_t)rmrPort;
snprintf(sctpParams.rmrAddress, sizeof(sctpParams.rmrAddress), "%d", (int) (sctpParams.rmrPort));
-
- string tmpStr;
- if(std::getenv("loglevel"))
- {
- auto tmpStr = std::getenv("loglevel");
- if (strlen(tmpStr) == 0) {
- mdclog_write(MDCLOG_ERR, "illegal loglevel. Set loglevel to MDCLOG_ERR");
- tmpStr = "3";
- }
-
- if (!strcmp(tmpStr,"0")) {
- sctpParams.logLevel = MDCLOG_DEBUG;
- } else if (!strcmp(tmpStr,"1")) {
- sctpParams.logLevel = MDCLOG_INFO;
- } else if (!strcmp(tmpStr,"2")) {
- sctpParams.logLevel = MDCLOG_WARN;
- } else if (!strcmp(tmpStr,"3")) {
- sctpParams.logLevel = MDCLOG_ERR;
- } else {
- mdclog_write(MDCLOG_ERR, "illegal loglevel = %s. Set loglevel to MDCLOG_ERR", tmpStr);
- sctpParams.logLevel = MDCLOG_ERR;
- }
- }
- else
- {
- auto tmpStr = conf.getStringValue("loglevel");
- if (tmpStr.length() == 0) {
- mdclog_write(MDCLOG_ERR, "illegal loglevel. Set loglevel to MDCLOG_INFO");
- tmpStr = "info";
- }
- transform(tmpStr.begin(), tmpStr.end(), tmpStr.begin(), ::tolower);
-
- if ((tmpStr.compare("debug")) == 0) {
- sctpParams.logLevel = MDCLOG_DEBUG;
- } else if ((tmpStr.compare("info")) == 0) {
- sctpParams.logLevel = MDCLOG_INFO;
- } else if ((tmpStr.compare("warning")) == 0) {
- sctpParams.logLevel = MDCLOG_WARN;
- } else if ((tmpStr.compare("error")) == 0) {
- sctpParams.logLevel = MDCLOG_ERR;
- } else {
- mdclog_write(MDCLOG_ERR, "illegal loglevel = %s. Set loglevel to MDCLOG_INFO", tmpStr.c_str());
- sctpParams.logLevel = MDCLOG_INFO;
- }
- }
- mdclog_level_set(sctpParams.logLevel);
-
- tmpStr = conf.getStringValue("volume");
+ auto tmpStr = conf.getStringValue("volume");
if (tmpStr.length() == 0) {
+#if !(defined(UNIT_TEST) || defined(MODULE_TEST))
mdclog_write(MDCLOG_ERR, "illegal volume.");
return -1;
+#endif
}
char tmpLogFilespec[VOLUME_URL_SIZE];
sctpParams.myIP = conf.getStringValue("local-ip");
if (sctpParams.myIP.length() == 0) {
+#if !(defined(UNIT_TEST) || defined(MODULE_TEST))
mdclog_write(MDCLOG_ERR, "illegal local-ip.");
return -1;
+#endif
}
int sctpPort = conf.getIntValue("sctp-port");
if (sctpPort == -1) {
+#if !(defined(UNIT_TEST) || defined(MODULE_TEST))
mdclog_write(MDCLOG_ERR, "illegal SCTP port ");
return -1;
+#endif
}
sctpParams.sctpPort = (uint16_t)sctpPort;
sctpParams.fqdn = conf.getStringValue("external-fqdn");
if (sctpParams.fqdn.length() == 0) {
+#if !(defined(UNIT_TEST) || defined(MODULE_TEST))
mdclog_write(MDCLOG_ERR, "illegal external-fqdn");
return -1;
+#endif
}
std::string pod = conf.getStringValue("pod_name");
+#ifndef UNIT_TEST
if (pod.length() == 0) {
mdclog_write(MDCLOG_ERR, "illegal pod_name in config file");
return -1;
return -1;
}
}
-
+#endif
tmpStr = conf.getStringValue("trace");
transform(tmpStr.begin(), tmpStr.end(), tmpStr.begin(), ::tolower);
if ((tmpStr.compare("start")) == 0) {
+#if !(defined(UNIT_TEST) || defined(MODULE_TEST))
mdclog_write(MDCLOG_INFO, "Trace set to: start");
sctpParams.trace = true;
+#endif
} else if ((tmpStr.compare("stop")) == 0) {
mdclog_write(MDCLOG_INFO, "Trace set to: stop");
sctpParams.trace = false;
} else {
+#if !(defined(UNIT_TEST) || defined(MODULE_TEST))
mdclog_write(MDCLOG_ERR, "Trace was set to wrong value %s, set to stop", tmpStr.c_str());
sctpParams.trace = false;
+#endif
}
jsonTrace = sctpParams.trace;
sctpParams.podName.c_str());
if (mdclog_level_get() >= MDCLOG_INFO) {
- mdclog_mdc_add("RMR Port", to_string(sctpParams.rmrPort).c_str());
- mdclog_mdc_add("LogLevel", to_string(sctpParams.logLevel).c_str());
- mdclog_mdc_add("volume", sctpParams.volume);
- mdclog_mdc_add("tmpLogFilespec", tmpLogFilespec);
- mdclog_mdc_add("my ip", sctpParams.myIP.c_str());
- mdclog_mdc_add("pod name", sctpParams.podName.c_str());
+ mdclog_write(MDCLOG_DEBUG,"RMR Port: %s", to_string(sctpParams.rmrPort).c_str());
+ mdclog_write(MDCLOG_DEBUG,"volume: %s", sctpParams.volume);
+ mdclog_write(MDCLOG_DEBUG,"tmpLogFilespec: %s", tmpLogFilespec);
+ mdclog_write(MDCLOG_DEBUG,"my ip: %s", sctpParams.myIP.c_str());
+ mdclog_write(MDCLOG_DEBUG,"pod name: %s", sctpParams.podName.c_str());
mdclog_write(MDCLOG_INFO, "running parameters for instance : %s", sctpParams.ka_message);
}
- mdclog_mdc_clean();
// Files written to the current working directory
boostLogger = logging::add_file_log(
}
void startPrometheus(sctp_params_t &sctpParams) {
+ auto podName = std::getenv("POD_NAME");
+ string metric = "E2TBeta";
+ if (strstr(podName, "alpha") != NULL) {
+ metric = "E2TAlpha";
+ }
+ //Get eth0 interface IP
+ char* host = getinterfaceip();
+ string hostip = host;
+
sctpParams.prometheusFamily = &BuildCounter()
- .Name("E2T")
- .Help("E2T message counter")
+ .Name(metric.c_str())
+ .Help("E2T instance metrics")
.Labels({{"POD_NAME", sctpParams.podName}})
.Register(*sctpParams.prometheusRegistry);
- string prometheusPath = sctpParams.prometheusPort + "," + "[::]:" + sctpParams.prometheusPort;
+ // Build E2T instance level metrics
+ buildE2TPrometheusCounters(sctpParams);
+
+ string prometheusPath;
+ if (hostip.empty())
+ prometheusPath = sctpParams.prometheusPort + "," + "[::]:" + sctpParams.prometheusPort;
+ else
+ prometheusPath = hostip + ":" + sctpParams.prometheusPort;
+
if (mdclog_level_get() >= MDCLOG_DEBUG) {
mdclog_write(MDCLOG_DEBUG, "Start Prometheus Pull mode on %s", prometheusPath.c_str());
}
sctpParams.prometheusExposer->RegisterCollectable(sctpParams.prometheusRegistry);
}
#ifndef UNIT_TEST
+
int main(const int argc, char **argv) {
sctp_params_t sctpParams;
-
{
std::random_device device{};
std::mt19937 generator(device());
unsigned num_cpus = std::thread::hardware_concurrency();
init_log();
- mdclog_level_set(MDCLOG_INFO);
-
if (std::signal(SIGINT, catch_function) == SIG_ERR) {
mdclog_write(MDCLOG_ERR, "Error initializing SIGINT");
exit(1);
exit(1);
}
- cpuClock = approx_CPU_MHz(100);
+// cpuClock = approx_CPU_MHz(100);
- mdclog_write(MDCLOG_DEBUG, "CPU speed %11.11f", cpuClock);
+// mdclog_write(MDCLOG_DEBUG, "CPU speed %11.11f", cpuClock);
auto result = parse(argc, argv, sctpParams);
- if (buildConfiguration(sctpParams) != 0) {
- exit(-1);
+ if (buildConfiguration(sctpParams) != numberZero) {
+ exit(negativeOne);
}
//auto registry = std::make_shared<Registry>();
mdclog_write(MDCLOG_ERR, "failed to open epoll descriptor");
exit(-1);
}
-
getRmrContext(sctpParams);
if (sctpParams.rmrCtx == nullptr) {
close(sctpParams.epoll_fd);
sctpParams.sctpMap = new mapWrapper();
+ if (pthread_mutex_init(&thread_lock, NULL) != 0) {
+ mdclog_write(MDCLOG_ERR, "failed to init thread lock");
+ exit(-1);
+ }
std::vector<std::thread> threads(num_cpus);
// std::vector<std::thread> threads;
- num_cpus = 3;
- for (unsigned int i = 0; i < num_cpus; i++) {
+ num_cpus = numberOne;
+ for (unsigned int i = numberZero; i < num_cpus; i++) {
threads[i] = std::thread(listener, &sctpParams);
cpu_set_t cpuset;
CPU_ZERO(&cpuset);
CPU_SET(i, &cpuset);
int rc = pthread_setaffinity_np(threads[i].native_handle(), sizeof(cpu_set_t), &cpuset);
- if (rc != 0) {
+ if (rc != numberZero) {
mdclog_write(MDCLOG_ERR, "Error calling pthread_setaffinity_np: %d", rc);
}
}
for (auto &t : threads) {
t.join();
}
-
+ pthread_mutex_destroy(&thread_lock);
return 0;
}
#endif
void listener(sctp_params_t *params) {
int num_of_SCTP_messages = 0;
auto totalTime = 0.0;
- mdclog_mdc_clean();
- mdclog_level_set(params->logLevel);
-
std::thread::id this_id = std::this_thread::get_id();
//save cout
+ auto pod_name = std::getenv("POD_NAME");
+ auto container_name = std::getenv("CONTAINER_NAME");
+ auto service_name = std::getenv("SERVICE_NAME");
+ auto host_name = std::getenv("HOST_NAME");
+ auto system_name = std::getenv("SYSTEM_NAME");
+ auto pid = std::to_string(getpid()).c_str();
streambuf *oldCout = cout.rdbuf();
ostringstream memCout;
// create new cout
char tid[32];
memcpy(tid, memCout.str().c_str(), memCout.str().length() < 32 ? memCout.str().length() : 31);
tid[memCout.str().length()] = 0;
- mdclog_mdc_add("thread id", tid);
+ mdclog_mdc_add("SYSTEM_NAME", system_name);
+ mdclog_mdc_add("HOST_NAME", host_name);
+ mdclog_mdc_add("SERVICE_NAME", service_name);
+ mdclog_mdc_add("CONTAINER_NAME", container_name);
+ mdclog_mdc_add("POD_NAME", pod_name);
+ mdclog_mdc_add("PID", pid);
if (mdclog_level_get() >= MDCLOG_DEBUG) {
mdclog_write(MDCLOG_DEBUG, "started thread number %s", tid);
if (mdclog_level_get() >= MDCLOG_DEBUG) {
mdclog_write(MDCLOG_DEBUG, "Start EPOLL Wait. Timeout = %d", params->epollTimeOut);
}
+#ifndef UNIT_TEST
auto numOfEvents = epoll_wait(params->epoll_fd, events, MAXEVENTS, params->epollTimeOut);
- if (numOfEvents == 0) { // time out
+#else
+ auto numOfEvents = 1;
+#endif
+ if (numOfEvents == numberZero) { // time out
+#if !(defined(UNIT_TEST) || defined(MODULE_TEST))
if (mdclog_level_get() >= MDCLOG_DEBUG) {
mdclog_write(MDCLOG_DEBUG, "got epoll timeout");
}
continue;
- } else if (numOfEvents < 0) {
+ } else if (numOfEvents < numberZero) {
if (errno == EINTR) {
if (mdclog_level_get() >= MDCLOG_DEBUG) {
mdclog_write(MDCLOG_DEBUG, "got EINTR : %s", strerror(errno));
continue;
}
mdclog_write(MDCLOG_ERR, "Epoll wait failed, errno = %s", strerror(errno));
+ if(events)
+ {
+ free(events);
+ events = nullptr;
+ }
return;
+#endif
}
- for (auto i = 0; i < numOfEvents; i++) {
+ for (auto i = numberZero; i < numOfEvents; i++) {
if (mdclog_level_get() >= MDCLOG_DEBUG) {
mdclog_write(MDCLOG_DEBUG, "handling epoll event %d out of %d", i + 1, numOfEvents);
}
}
peerInfo->sctpParams = params;
peerInfo->fileDescriptor = accept(params->listenFD, &in_addr, &in_len);
- if (peerInfo->fileDescriptor == -1) {
+ if (peerInfo->fileDescriptor == negativeOne) {
+#if !(defined(UNIT_TEST) || defined(MODULE_TEST))
if ((errno == EAGAIN) || (errno == EWOULDBLOCK)) {
/* We have processed all incoming connections. */
+ if(peerInfo) {
+ free(peerInfo);
+ peerInfo = nullptr;
+ }
break;
} else {
+ if(peerInfo) {
+ free(peerInfo);
+ peerInfo = nullptr;
+ }
mdclog_write(MDCLOG_ERR, "Accept error, errno = %s", strerror(errno));
break;
}
if (setSocketNoBlocking(peerInfo->fileDescriptor) == -1) {
mdclog_write(MDCLOG_ERR, "setSocketNoBlocking failed to set new connection %s on port %s\n", hostBuff, portBuff);
close(peerInfo->fileDescriptor);
+ if(peerInfo) {
+ free(peerInfo);
+ peerInfo = nullptr;
+ }
break;
+#endif
+ }
+ struct sctp_event_subscribe sctpevents;
+ memset( (void *)&sctpevents, 0, sizeof(sctpevents) );
+ sctpevents.sctp_data_io_event = 1;
+ setsockopt(peerInfo->fileDescriptor, SOL_SCTP, SCTP_EVENTS,(const void *)&sctpevents, sizeof(sctpevents) );
+
+ {
+ char *value = getenv("SCTP_ASSOC_MAX_RETRANS");
+ if (value)
+ {
+ int int_val = atoi(value);
+ mdclog_write(MDCLOG_INFO, "Changing sctp_association_max_retrans to %s, %d\n", value, int_val);
+ if (int_val > 0)
+ {
+ struct sctp_assocparams sctpassocparams;
+ memset((void *)&sctpassocparams, 0, sizeof(sctpassocparams));
+ sctpassocparams.sasoc_asocmaxrxt = int_val;
+ setsockopt(peerInfo->fileDescriptor, SOL_SCTP, SCTP_ASSOCINFO, (const void *)&sctpassocparams, sizeof(sctpassocparams));
+ }
+ }
}
+
auto ans = getnameinfo(&in_addr, in_len,
peerInfo->hostName, NI_MAXHOST,
peerInfo->portNumber, NI_MAXSERV, (unsigned )((unsigned int)NI_NUMERICHOST | (unsigned int)NI_NUMERICSERV));
if (ans < 0) {
mdclog_write(MDCLOG_ERR, "Failed to get info on connection request. %s\n", strerror(errno));
close(peerInfo->fileDescriptor);
+ if(peerInfo) {
+ free(peerInfo);
+ peerInfo = nullptr;
+ }
break;
}
if (mdclog_level_get() >= MDCLOG_DEBUG) {
(EPOLLIN | EPOLLET),
params->sctpMap, nullptr,
0) != 0) {
+ if(peerInfo) {
+ free(peerInfo);
+ peerInfo = nullptr;
+ }
break;
}
break;
end.tv_nsec - start.tv_nsec);
}
}
+#ifdef UNIT_TEST
+ break;
+#endif
}
}
char buf[4096] __attribute__ ((aligned(__alignof__(struct inotify_event))));
const struct inotify_event *event;
char *ptr;
-
+#ifdef UNIT_TEST
+ struct inotify_event tmpEvent;
+#endif
path p = (sctpParams->configFilePath + "/" + sctpParams->configFileName).c_str();
auto endlessLoop = true;
while (endlessLoop) {
+#if !(defined(UNIT_TEST) || defined(MODULE_TEST))
auto len = read(sctpParams->inotifyFD, buf, sizeof buf);
+#else
+ auto len=10;
+#endif
if (len == -1) {
+#if !(defined(UNIT_TEST) || defined(MODULE_TEST))
if (errno != EAGAIN) {
mdclog_write(MDCLOG_ERR, "read %s ", strerror(errno));
endlessLoop = false;
endlessLoop = false;
continue;
}
+#endif
}
for (ptr = buf; ptr < buf + len; ptr += sizeof(struct inotify_event) + event->len) {
- event = (const struct inotify_event *)ptr;
+#ifndef UNIT_TEST
+ event = (const struct inotify_event *)ptr;
+#else
+ tmpEvent.mask = (uint32_t)IN_CLOSE_WRITE;
+ event = &tmpEvent;
+#endif
if (event->mask & (uint32_t)IN_ISDIR) {
continue;
}
// not the directory
}
if (event->len) {
+#if !(defined(UNIT_TEST) || defined(MODULE_TEST))
auto retVal = strcmp(sctpParams->configFileName.c_str(), event->name);
if (retVal != 0) {
continue;
}
+#endif
}
// only the file we want
if (event->mask & (uint32_t)IN_CLOSE_WRITE) {
p.string().c_str(), strerror(errno));
return;
}
-
- auto tmpStr = conf.getStringValue("loglevel");
- if (tmpStr.length() == 0) {
- mdclog_write(MDCLOG_ERR, "illegal loglevel. Set loglevel to MDCLOG_INFO");
- tmpStr = "info";
- }
- transform(tmpStr.begin(), tmpStr.end(), tmpStr.begin(), ::tolower);
-
- if ((tmpStr.compare("debug")) == 0) {
- mdclog_write(MDCLOG_INFO, "Log level set to MDCLOG_DEBUG");
- sctpParams->logLevel = MDCLOG_DEBUG;
- } else if ((tmpStr.compare("info")) == 0) {
- mdclog_write(MDCLOG_INFO, "Log level set to MDCLOG_INFO");
- sctpParams->logLevel = MDCLOG_INFO;
- } else if ((tmpStr.compare("warning")) == 0) {
- mdclog_write(MDCLOG_INFO, "Log level set to MDCLOG_WARN");
- sctpParams->logLevel = MDCLOG_WARN;
- } else if ((tmpStr.compare("error")) == 0) {
- mdclog_write(MDCLOG_INFO, "Log level set to MDCLOG_ERR");
- sctpParams->logLevel = MDCLOG_ERR;
- } else {
- mdclog_write(MDCLOG_ERR, "illegal loglevel = %s. Set loglevel to MDCLOG_INFO", tmpStr.c_str());
- sctpParams->logLevel = MDCLOG_INFO;
- }
- mdclog_level_set(sctpParams->logLevel);
-
-
- tmpStr = conf.getStringValue("trace");
+ auto tmpStr = conf.getStringValue("trace");
if (tmpStr.length() == 0) {
mdclog_write(MDCLOG_ERR, "illegal trace. Set trace to stop");
tmpStr = "stop";
endlessLoop = false;
}
+#ifdef UNIT_TEST
+ break;
+#endif
}
}
}
socklen_t retValLen = 0;
auto rc = getsockopt(peerInfo->fileDescriptor, SOL_SOCKET, SO_ERROR, &retVal, &retValLen);
if (rc != 0 || retVal != 0) {
-#ifndef UNIT_TEST
+#if !(defined(UNIT_TEST) || defined(MODULE_TEST))
if (rc != 0) {
rmrMessageBuffer.sendMessage->len = snprintf((char *)rmrMessageBuffer.sendMessage->payload, 256,
"%s|Failed SCTP Connection, after EINPROGRESS the getsockopt%s",
message.message.asnLength = rmrMessageBuffer.sendMessage->len;
mdclog_write(MDCLOG_ERR, "%s", rmrMessageBuffer.sendMessage->payload);
message.message.direction = 'N';
+ mdclog_write(MDCLOG_DEBUG, "Checking the peerInfo->enodbName - %s", peerInfo->enodbName);
+ if (peerInfo->e2tInternalCounters[E2T_Internal_Counters::SCTP_ABORT_INITIATED_BY_E2NODE])
+ {
+ mdclog_write(MDCLOG_DEBUG, "Incrementing SCTP_ABORT_INITIATED_BY_E2NODE Counter");
+ peerInfo->e2tInternalCounters[E2T_Internal_Counters::SCTP_ABORT_INITIATED_BY_E2NODE]->Increment();
+ mdclog_write(MDCLOG_DEBUG, "Incremented SCTP_ABORT_INITIATED_BY_E2NODE Counter");
+ }
if (sendRequestToXapp(message, RIC_SCTP_CONNECTION_FAILURE, rmrMessageBuffer) != 0) {
mdclog_write(MDCLOG_ERR, "SCTP_CONNECTION_FAIL message failed to send to xAPP");
}
peerInfo->mtype = 0;
return;
}
-
+#if !(defined(UNIT_TEST) || defined(MODULE_TEST))
peerInfo->isConnected = true;
if (modifyToEpoll(params->epoll_fd, peerInfo, (EPOLLIN | EPOLLET), params->sctpMap, peerInfo->enodbName,
}
if (sendSctpMsg(peerInfo, message, params->sctpMap) != 0) {
if (mdclog_level_get() >= MDCLOG_DEBUG) {
- mdclog_write(MDCLOG_DEBUG, "Error write to SCTP %s %d", __func__, __LINE__);
+ mdclog_write(MDCLOG_ERR, "Error write to SCTP %s %d", __func__, __LINE__);
}
return;
}
memset(peerInfo->asnData, 0, peerInfo->asnLength);
peerInfo->asnLength = 0;
peerInfo->mtype = 0;
+#endif
}
ReportingMessages_t &message,
RmrMessagesBuffer_t &rmrMessageBuffer,
sctp_params_t *params) {
- if (event.data.fd != params->rmrListenFd) {
+ if ((event.data.fd != params->rmrListenFd) && (event.data.ptr != nullptr)) {
auto *peerInfo = (ConnectedCU_t *)event.data.ptr;
mdclog_write(MDCLOG_ERR, "epoll error, events %0x on fd %d, RAN NAME : %s",
event.events, peerInfo->fileDescriptor, peerInfo->enodbName);
-#ifndef UNIT_TEST
-
+#if !(defined(UNIT_TEST) || defined(MODULE_TEST))
rmrMessageBuffer.sendMessage->len = snprintf((char *)rmrMessageBuffer.sendMessage->payload, 256,
"%s|Failed SCTP Connection",
peerInfo->enodbName);
memcpy(message.message.enodbName, peerInfo->enodbName, sizeof(peerInfo->enodbName));
message.message.direction = 'N';
+ mdclog_write(MDCLOG_DEBUG, "Checking the peerInfo->enodbName - %s", peerInfo->enodbName);
+ if (peerInfo->e2tInternalCounters[E2T_Internal_Counters::SCTP_ABORT_INITIATED_BY_E2NODE])
+ {
+ mdclog_write(MDCLOG_DEBUG, "Incrementing SCTP_ABORT_INITIATED_BY_E2NODE Counter");
+ peerInfo->e2tInternalCounters[E2T_Internal_Counters::SCTP_ABORT_INITIATED_BY_E2NODE]->Increment();
+ mdclog_write(MDCLOG_DEBUG, "Incremented SCTP_ABORT_INITIATED_BY_E2NODE Counter");
+ }
if (sendRequestToXapp(message, RIC_SCTP_CONNECTION_FAILURE, rmrMessageBuffer) != 0) {
mdclog_write(MDCLOG_ERR, "SCTP_CONNECTION_FAIL message failed to send to xAPP");
}
#endif
close(peerInfo->fileDescriptor);
- params->sctpMap->erase(peerInfo->enodbName);
+ mdclog_write(MDCLOG_DEBUG, "Before event.data.ptr %p and data is %d", (void *)event.data.ptr, *((ConnectedCU_t *)event.data.ptr));
+ mdclog_write(MDCLOG_DEBUG, "Erasing Entry from Map for Key %s", peerInfo->enodbName);
+ removeE2ConnectionEntryFromMap(peerInfo->enodbName);
+ //params->sctpMap->erase(peerInfo->enodbName);
cleanHashEntry((ConnectedCU_t *) event.data.ptr, params->sctpMap);
+ if (event.data.ptr != nullptr)
+ {
+ mdclog_write(MDCLOG_DEBUG, "Not assigned event.data.ptr = NULL");
+ event.data.ptr = nullptr;
+ }
+ mdclog_write(MDCLOG_DEBUG, "After event.data.ptr %p", (void *)event.data.ptr);
} else {
mdclog_write(MDCLOG_ERR, "epoll error, events %0x on RMR FD", event.events);
}
auto flags = fcntl(socket, F_GETFL, 0);
if (flags == -1) {
- mdclog_mdc_add("func", "fcntl");
mdclog_write(MDCLOG_ERR, "%s, %s", __FUNCTION__, strerror(errno));
- mdclog_mdc_clean();
return -1;
}
flags = (unsigned) flags | (unsigned) O_NONBLOCK;
if (fcntl(socket, F_SETFL, flags) == -1) {
- mdclog_mdc_add("func", "fcntl");
mdclog_write(MDCLOG_ERR, "%s, %s", __FUNCTION__, strerror(errno));
- mdclog_mdc_clean();
return -1;
}
* @param m
*/
void cleanHashEntry(ConnectedCU_t *val, Sctp_Map_t *m) {
- char *dummy;
- auto port = (uint16_t) strtol(val->portNumber, &dummy, 10);
- char searchBuff[2048]{};
-
- snprintf(searchBuff, sizeof searchBuff, "host:%s:%d", val->hostName, port);
- m->erase(searchBuff);
+ if(val != nullptr)
+ {
+ mdclog_write(MDCLOG_DEBUG, "Inside cleanHashEntry");
+ char *dummy;
+ auto port = (uint16_t) strtol(val->portNumber, &dummy, 10);
+ char searchBuff[2048]{};
+
+ snprintf(searchBuff, sizeof searchBuff, "host:%s:%d", val->hostName, port);
+ if(m->find(searchBuff)) {
+ m->erase(searchBuff);
+ }
- m->erase(val->enodbName);
-#ifndef UNIT_TEST
- free(val);
-#endif
+ if(m->find(val->enodbName)) {
+ mdclog_write(MDCLOG_DEBUG, "remove key enodbName = %s from %s at line %d", val->enodbName, __FUNCTION__, __LINE__);
+ m->erase(val->enodbName);
+ }
+ free(val);
+ val = nullptr;
+ mdclog_write(MDCLOG_DEBUG, "After free");
+ }
}
/**
*/
int sendSctpMsg(ConnectedCU_t *peerInfo, ReportingMessages_t &message, Sctp_Map_t *m) {
auto loglevel = mdclog_level_get();
+#ifndef UNIT_TEST
int fd = peerInfo->fileDescriptor;
+ int streamId = fetchStreamId(peerInfo,message);
+#else
+ int fd = FILE_DESCRIPTOR;
+ int streamId = 0;
+#endif
if (loglevel >= MDCLOG_DEBUG) {
mdclog_write(MDCLOG_DEBUG, "Send SCTP message for CU %s, %s",
message.message.enodbName, __FUNCTION__);
}
while (true) {
- if (send(fd,message.message.asndata, message.message.asnLength,MSG_NOSIGNAL) < 0) {
+ if (sctp_sendmsg(fd,message.message.asndata, message.message.asnLength,(struct sockaddr *) NULL, 0, htonl(E2AP_PPID), 0,streamId,0,0) < 0) {
if (errno == EINTR) {
continue;
}
mdclog_write(MDCLOG_ERR, "error writing to CU a message, %s ", strerror(errno));
+#if !(defined(UNIT_TEST) || defined(MODULE_TEST))
if (!peerInfo->isConnected) {
mdclog_write(MDCLOG_ERR, "connection to CU %s is still in progress.", message.message.enodbName);
return -1;
}
+#endif
+#ifndef UNIT_TEST
+ mdclog_write(MDCLOG_DEBUG, "Erasing Entry from Map for Key %s", peerInfo->enodbName);
+ removeE2ConnectionEntryFromMap(peerInfo->enodbName);
cleanHashEntry(peerInfo, m);
+ if (peerInfo != nullptr)
+ {
+ mdclog_write(MDCLOG_DEBUG, "Not assigned peerInfo = NULL");
+ peerInfo = nullptr;
+ }
close(fd);
+#endif
char key[MAX_ENODB_NAME_SIZE * 2];
snprintf(key, MAX_ENODB_NAME_SIZE * 2, "msg:%s|%d", message.message.enodbName,
message.message.messageType);
auto tmp = m->find(key);
if (tmp) {
free(tmp);
+ tmp = nullptr;
}
m->erase(key);
+#ifndef UNIT_TEST
return -1;
+#endif
}
message.message.direction = 'D';
// send report.buffer of size
}
}
+void removeE2ConnectionEntryFromMap(char* enbName)
+{
+ if(connectionHandlingPerE2NodeMap.empty())
+ {
+ mdclog_write(MDCLOG_DEBUG, "connectionHandlingPerE2Node map is empty");
+ return;
+ }
+ std::map<std::string, E2NodeConnectionHandling>::iterator itr = connectionHandlingPerE2NodeMap.begin();
+ mdclog_write(MDCLOG_DEBUG, "Iterating Map e2NodeIdConnectionStatusMap");
+ while (itr != connectionHandlingPerE2NodeMap.end())
+ {
+ int result = itr->first.compare(enbName);
+ if (result == 0)
+ {
+ mdclog_write(MDCLOG_DEBUG, "Key %s Found in connectionHandlingPerE2NodeMap Map, Current Procedure is %d", enbName, itr->second.e2tProcedureOngoingStatus);
+ mdclog_write(MDCLOG_DEBUG, "Removing the Entry from map for %s", enbName);
+ connectionHandlingPerE2NodeMap.erase(itr);
+ mdclog_write(MDCLOG_DEBUG, "Deleted the Entry Successfully from map for %s", enbName);
+ break;
+ }
+ ++itr;
+ }
+}
/**
*
ReportingMessages_t message {};
auto done = 0;
auto loglevel = mdclog_level_get();
+ struct sctp_sndrcvinfo sndrcvinfo;
+ int flags;
+ int streamId;
// get the identity of the interface
- message.peerInfo = (ConnectedCU_t *)events->data.ptr;
+ if (events->data.ptr != nullptr){
+ message.peerInfo = (ConnectedCU_t *)events->data.ptr;
+ }
struct timespec start{0, 0};
struct timespec decodeStart{0, 0};
}
// read the buffer directly to rmr payload
message.message.asndata = rmrMessageBuffer.sendMessage->payload;
+#ifndef UNIT_TEST
message.message.asnLength = rmrMessageBuffer.sendMessage->len =
- read(message.peerInfo->fileDescriptor, rmrMessageBuffer.sendMessage->payload, RECEIVE_SCTP_BUFFER_SIZE);
+ sctp_recvmsg(message.peerInfo->fileDescriptor, rmrMessageBuffer.sendMessage->payload, RECEIVE_SCTP_BUFFER_SIZE,(struct sockaddr *) NULL, 0, &sndrcvinfo, &flags);
+ mdclog_write(MDCLOG_DEBUG, "Start Read from SCTP fd %d stream %d ", message.peerInfo->fileDescriptor, sndrcvinfo.sinfo_stream);
+ streamId = sndrcvinfo.sinfo_stream;
+#else
+ message.message.asnLength = rmrMessageBuffer.sendMessage->len;
+ streamId = 0;
+#endif
if (loglevel >= MDCLOG_DEBUG) {
mdclog_write(MDCLOG_DEBUG, "Finish Read from SCTP %d fd message length = %ld",
} else if (message.message.asnLength == 0) {
/* End of file. The remote has closed the connection. */
if (loglevel >= MDCLOG_INFO) {
- mdclog_write(MDCLOG_INFO, "END of File Closed connection - descriptor = %d",
- message.peerInfo->fileDescriptor);
+ mdclog_write(MDCLOG_INFO, "END of File Closed connection - descriptor = %d and %s",
+ message.peerInfo->fileDescriptor, message.peerInfo->enodbName);
}
done = 1;
break;
printBuffer);
clock_gettime(CLOCK_MONOTONIC, &decodeStart);
}
-
+#ifndef UNIT_TEST
auto rval = asn_decode(nullptr, ATS_ALIGNED_BASIC_PER, &asn_DEF_E2AP_PDU, (void **) &pdu,
- message.message.asndata, message.message.asnLength);
+ message.message.asndata, message.message.asnLength);
+#else
+ asn_dec_rval_t rval = {RC_OK, 0};
+ pdu = (E2AP_PDU_t*)rmrMessageBuffer.sendMessage->tp_buf;
+#endif
if (rval.code != RC_OK) {
mdclog_write(MDCLOG_ERR, "Error %d Decoding (unpack) E2AP PDU from RAN : %s", rval.code,
message.peerInfo->enodbName);
+ if (pdu != nullptr) {
+ ASN_STRUCT_FREE(asn_DEF_E2AP_PDU, pdu);
+ pdu = nullptr;
+ }
break;
}
switch (pdu->present) {
case E2AP_PDU_PR_initiatingMessage: {//initiating message
- asnInitiatingRequest(pdu, sctpMap,message, rmrMessageBuffer);
+ asnInitiatingRequest(pdu, sctpMap,message, rmrMessageBuffer, streamId);
break;
}
case E2AP_PDU_PR_successfulOutcome: { //successful outcome
message.peerInfo->enodbName, end.tv_sec - decodeStart.tv_sec, end.tv_nsec - decodeStart.tv_nsec);
}
numOfMessages++;
+#ifndef UNIT_TEST
if (pdu != nullptr) {
- ASN_STRUCT_RESET(asn_DEF_E2AP_PDU, pdu);
- //ASN_STRUCT_FREE(asn_DEF_E2AP_PDU, pdu);
- //pdu = nullptr;
+ // ASN_STRUCT_RESET(asn_DEF_E2AP_PDU, pdu); /* With reset we were not freeing the memory and was causing the leak here. */
+ ASN_STRUCT_FREE(asn_DEF_E2AP_PDU, pdu);
+ pdu = nullptr;
}
+#else
+ done = 1;
+ break;
+#endif
}
if (done) {
"%s|CU disconnected unexpectedly",
message.peerInfo->enodbName);
message.message.asndata = rmrMessageBuffer.sendMessage->payload;
-
+ #ifndef UNIT_TEST
+ if (message.peerInfo->e2tInternalCounters[E2T_Internal_Counters::SCTP_ABORT_INITIATED_BY_E2NODE])
+ {
+ mdclog_write(MDCLOG_DEBUG, "Incrementing SCTP_ABORT_INITIATED_BY_E2NODE Counter");
+ message.peerInfo->e2tInternalCounters[E2T_Internal_Counters::SCTP_ABORT_INITIATED_BY_E2NODE]->Increment();
+ mdclog_write(MDCLOG_DEBUG, "Incremented SCTP_ABORT_INITIATED_BY_E2NODE Counter");
+ }
+ #endif
+#if !(defined(UNIT_TEST) || defined(MODULE_TEST))
if (sendRequestToXapp(message,
RIC_SCTP_CONNECTION_FAILURE,
rmrMessageBuffer) != 0) {
mdclog_write(MDCLOG_ERR, "SCTP_CONNECTION_FAIL message failed to send to xAPP");
}
+#endif
+ mdclog_write(MDCLOG_DEBUG, "Erasing Entry from Map for Key %s", message.peerInfo->enodbName);
+ removeE2ConnectionEntryFromMap(message.peerInfo->enodbName);
/* Closing descriptor make epoll remove it from the set of descriptors which are monitored. */
+#ifndef UNIT_TEST
+ pthread_mutex_lock(&thread_lock);
+ if (fcntl(message.peerInfo->fileDescriptor, F_GETFD) != -1) {
+ mdclog_write(MDCLOG_DEBUG, "Closing connection - descriptor = %d", message.peerInfo->fileDescriptor);
+ close(message.peerInfo->fileDescriptor);
+ cleanHashEntry((ConnectedCU_t *) events->data.ptr, sctpMap);
+ if (events->data.ptr != nullptr)
+ {
+ mdclog_write(MDCLOG_DEBUG, "Not assigned events->data.ptr = NULL");
+ events->data.ptr = nullptr;
+ }
+ }
+ pthread_mutex_unlock(&thread_lock);
+#else
close(message.peerInfo->fileDescriptor);
cleanHashEntry((ConnectedCU_t *) events->data.ptr, sctpMap);
+ if (events->data.ptr != nullptr)
+ {
+ mdclog_write(MDCLOG_DEBUG, "[SCTP_ABORT]: Not assigned events->data.ptr = NULL");
+ events->data.ptr = nullptr;
+ }
+#endif
}
if (loglevel >= MDCLOG_DEBUG) {
clock_gettime(CLOCK_MONOTONIC, &end);
}
return 0;
}
-
+#ifndef UNIT_TEST
static void buildAndSendSetupRequest(ReportingMessages_t &message,
RmrMessagesBuffer_t &rmrMessageBuffer,
E2AP_PDU_t *pdu/*,
buffer = (unsigned char *) calloc(buffer_size, sizeof(unsigned char));
if(!buffer)
{
+#if !(defined(UNIT_TEST) || defined(MODULE_TEST))
mdclog_write(MDCLOG_ERR, "Allocating buffer for %s failed, %s", asn_DEF_E2AP_PDU.name, strerror(errno));
return;
+#endif
}
while (true) {
er = asn_encode_to_buffer(nullptr, ATS_BASIC_XER, &asn_DEF_E2AP_PDU, pdu, buffer, buffer_size);
if (er.encoded == -1) {
+#if !(defined(UNIT_TEST) || defined(MODULE_TEST))
mdclog_write(MDCLOG_ERR, "encoding of %s failed, %s", asn_DEF_E2AP_PDU.name, strerror(errno));
return;
+#endif
} else if (er.encoded > (ssize_t) buffer_size) {
buffer_size = er.encoded + 128;
+#if !(defined(UNIT_TEST) || defined(MODULE_TEST))
mdclog_write(MDCLOG_WARN, "Buffer of size %d is to small for %s. Reallocate buffer of size %d",
(int) buffer_size,
asn_DEF_E2AP_PDU.name, buffer_size);
// out of memory
mdclog_write(MDCLOG_ERR, "Reallocating buffer for %s failed, %s", asn_DEF_E2AP_PDU.name, strerror(errno));
free(buffer);
+ buffer = nullptr;
return;
}
buffer = newBuffer;
continue;
+#endif
}
buffer[er.encoded] = '\0';
break;
static unsigned char tx[32];
snprintf((char *) tx, sizeof tx, "%15ld", transactionCounter++);
rmr_bytes2xact(rmrMsg, tx, strlen((const char *) tx));
-
+#ifndef UNIT_TEST
rmrMsg = rmr_send_msg(rmrMessageBuffer.rmrCtx, rmrMsg);
+#endif
if (rmrMsg == nullptr) {
mdclog_write(MDCLOG_ERR, "RMR failed to send returned nullptr");
} else if (rmrMsg->state != 0) {
rmrMsg->state = 0;
mdclog_write(MDCLOG_INFO, "RETRY sending Message %d to Xapp from %s",
rmrMsg->mtype, rmr_get_meid(rmrMsg, (unsigned char *) meid));
+#ifndef UNIT_TEST
rmrMsg = rmr_send_msg(rmrMessageBuffer.rmrCtx, rmrMsg);
+#endif
if (rmrMsg == nullptr) {
mdclog_write(MDCLOG_ERR, "RMR failed send returned nullptr");
} else if (rmrMsg->state != 0) {
rmr_free_msg(rmrMsg);
}
free(buffer);
+ buffer = nullptr;
return;
}
+#endif
#if 0
int RAN_Function_list_To_Vector(RANfunctions_List_t& list, vector <string> &runFunXML_v) {
#endif
+void buildE2TPrometheusCounters(sctp_params_t &sctpParams) {
+ sctpParams.e2tCounters[IN_INITI][MSG_COUNTER][(ProcedureCode_id_E2setup)] = &sctpParams.prometheusFamily->Add({{"counter", "SetupRequestMsgs"}});
+ sctpParams.e2tCounters[IN_INITI][BYTES_COUNTER][(ProcedureCode_id_E2setup)] = &sctpParams.prometheusFamily->Add({{"counter", "SetupRequestBytes"}});
+
+ sctpParams.e2tCounters[OUT_SUCC][MSG_COUNTER][(ProcedureCode_id_E2setup)] = &sctpParams.prometheusFamily->Add({{"counter", "SetupResponseMsgs"}});
+ sctpParams.e2tCounters[OUT_SUCC][BYTES_COUNTER][(ProcedureCode_id_E2setup)] = &sctpParams.prometheusFamily->Add({{"counter", "SetupResponseBytes"}});
+
+ sctpParams.e2tCounters[OUT_UN_SUCC][MSG_COUNTER][ProcedureCode_id_E2setup] = &sctpParams.prometheusFamily->Add({{"counter", "SetupRequestFailureMsgs"}});
+ sctpParams.e2tCounters[OUT_UN_SUCC][BYTES_COUNTER][ProcedureCode_id_E2setup] = &sctpParams.prometheusFamily->Add({{"counter", "SetupRequestFailureBytes"}});
+
+ sctpParams.e2tCounters[IN_INITI][MSG_COUNTER][(ProcedureCode_id_E2nodeConfigurationUpdate)] = &sctpParams.prometheusFamily->Add({{"counter", "E2NodeConfigUpdateMsgs"}});
+ sctpParams.e2tCounters[IN_INITI][BYTES_COUNTER][(ProcedureCode_id_E2nodeConfigurationUpdate)] = &sctpParams.prometheusFamily->Add({{"counter", "E2NodeConfigUpdateBytes"}});
+
+ sctpParams.e2tCounters[OUT_SUCC][MSG_COUNTER][(ProcedureCode_id_E2nodeConfigurationUpdate)] = &sctpParams.prometheusFamily->Add({{"counter", "E2NodeConfigUpdateResponseMsgs"}});
+ sctpParams.e2tCounters[OUT_SUCC][BYTES_COUNTER][(ProcedureCode_id_E2nodeConfigurationUpdate)] = &sctpParams.prometheusFamily->Add({{"counter", "E2NodeConfigUpdateResponseBytes"}});
+
+ sctpParams.e2tCounters[OUT_UN_SUCC][MSG_COUNTER][ProcedureCode_id_E2nodeConfigurationUpdate] = &sctpParams.prometheusFamily->Add({{"counter", "E2NodeConfigUpdateFailureMsgs"}});
+ sctpParams.e2tCounters[OUT_UN_SUCC][BYTES_COUNTER][ProcedureCode_id_E2nodeConfigurationUpdate] = &sctpParams.prometheusFamily->Add({{"counter", "E2NodeConfigUpdateFailureBytes"}});
+
+ sctpParams.e2tCounters[IN_INITI][MSG_COUNTER][(ProcedureCode_id_ErrorIndication)] = &sctpParams.prometheusFamily->Add({{"counter", "ErrorIndicationMsgs"}});
+ sctpParams.e2tCounters[IN_INITI][BYTES_COUNTER][(ProcedureCode_id_ErrorIndication)] = &sctpParams.prometheusFamily->Add({{"counter", "ErrorIndicationBytes"}});
+
+ sctpParams.e2tCounters[IN_INITI][MSG_COUNTER][ProcedureCode_id_Reset] = &sctpParams.prometheusFamily->Add({{"counter", "ResetRequestMsgs"}});
+ sctpParams.e2tCounters[IN_INITI][BYTES_COUNTER][ProcedureCode_id_Reset] = &sctpParams.prometheusFamily->Add({{"counter", "ResetRequestBytes"}});
+
+ sctpParams.e2tCounters[OUT_SUCC][MSG_COUNTER][ProcedureCode_id_Reset] = &sctpParams.prometheusFamily->Add({{"counter", "ResetAckMsgs"}});
+ sctpParams.e2tCounters[OUT_SUCC][BYTES_COUNTER][ProcedureCode_id_Reset] = &sctpParams.prometheusFamily->Add({{"counter", "ResetAckBytes"}});
+
+ sctpParams.e2tCounters[IN_INITI][MSG_COUNTER][ProcedureCode_id_RICserviceUpdate] = &sctpParams.prometheusFamily->Add({{"counter", "RICServiceUpdateMsgs"}});
+ sctpParams.e2tCounters[IN_INITI][BYTES_COUNTER][ProcedureCode_id_RICserviceUpdate] = &sctpParams.prometheusFamily->Add({{"counter", "RICServiceUpdateBytes"}});
+
+ sctpParams.e2tCounters[OUT_SUCC][MSG_COUNTER][ProcedureCode_id_RICserviceUpdate] = &sctpParams.prometheusFamily->Add({{"counter", "RICServiceUpdateRespMsgs"}});
+ sctpParams.e2tCounters[OUT_SUCC][BYTES_COUNTER][ProcedureCode_id_RICserviceUpdate] = &sctpParams.prometheusFamily->Add({{"counter", "RICServiceUpdateRespBytes"}});
+
+ sctpParams.e2tCounters[OUT_UN_SUCC][MSG_COUNTER][ProcedureCode_id_RICserviceUpdate] = &sctpParams.prometheusFamily->Add({{"counter", "RICServiceUpdateFailureMsgs"}});
+ sctpParams.e2tCounters[OUT_UN_SUCC][BYTES_COUNTER][ProcedureCode_id_RICserviceUpdate] = &sctpParams.prometheusFamily->Add({{"counter", "RICServiceUpdateFailureBytes"}});
+
+ sctpParams.e2tCounters[OUT_INITI][MSG_COUNTER][ProcedureCode_id_RICcontrol] = &sctpParams.prometheusFamily->Add({{"counter", "RICControlMsgs"}});
+ sctpParams.e2tCounters[OUT_INITI][BYTES_COUNTER][ProcedureCode_id_RICcontrol] = &sctpParams.prometheusFamily->Add({{"counter", "RICControlBytes"}});
+
+ sctpParams.e2tCounters[IN_SUCC][MSG_COUNTER][ProcedureCode_id_RICcontrol] = &sctpParams.prometheusFamily->Add({{"counter", "RICControlAckMsgs"}});
+ sctpParams.e2tCounters[IN_SUCC][BYTES_COUNTER][ProcedureCode_id_RICcontrol] = &sctpParams.prometheusFamily->Add({{"counter", "RICControlAckBytes"}});
+
+ sctpParams.e2tCounters[IN_UN_SUCC][MSG_COUNTER][ProcedureCode_id_RICcontrol] = &sctpParams.prometheusFamily->Add({{"counter", "RICControlFailureMsgs"}});
+ sctpParams.e2tCounters[IN_UN_SUCC][BYTES_COUNTER][ProcedureCode_id_RICcontrol] = &sctpParams.prometheusFamily->Add({{"counter", "RICControlFailureBytes"}});
+
+ sctpParams.e2tCounters[OUT_INITI][MSG_COUNTER][ProcedureCode_id_RICsubscription] = &sctpParams.prometheusFamily->Add({{"counter", "RICSubscriptionMsgs"}});
+ sctpParams.e2tCounters[OUT_INITI][BYTES_COUNTER][ProcedureCode_id_RICsubscription] = &sctpParams.prometheusFamily->Add({{"counter", "RICSubscriptionBytes"}});
+
+ sctpParams.e2tCounters[IN_SUCC][MSG_COUNTER][ProcedureCode_id_RICsubscription] = &sctpParams.prometheusFamily->Add({{"counter", "RICSubscriptionAckMsgs"}});
+ sctpParams.e2tCounters[IN_SUCC][BYTES_COUNTER][ProcedureCode_id_RICsubscription] = &sctpParams.prometheusFamily->Add({{"counter", "RICSubscriptionAckBytes"}});
+
+ sctpParams.e2tCounters[IN_UN_SUCC][MSG_COUNTER][ProcedureCode_id_RICsubscription] = &sctpParams.prometheusFamily->Add({{"counter", "RICSubscriptionFailureMsgs"}});
+ sctpParams.e2tCounters[IN_UN_SUCC][BYTES_COUNTER][ProcedureCode_id_RICsubscription] = &sctpParams.prometheusFamily->Add({{"counter", "RICSubscriptionFailureBytes"}});
+
+ sctpParams.e2tCounters[OUT_INITI][MSG_COUNTER][ProcedureCode_id_RICsubscriptionDelete] = &sctpParams.prometheusFamily->Add({{"counter", "RICSubscriptionDeleteMsgs"}});
+ sctpParams.e2tCounters[OUT_INITI][BYTES_COUNTER][ProcedureCode_id_RICsubscriptionDelete] = &sctpParams.prometheusFamily->Add({{"counter", "RICSubscriptionDeleteBytes"}});
+
+ sctpParams.e2tCounters[IN_SUCC][MSG_COUNTER][ProcedureCode_id_RICsubscriptionDelete] = &sctpParams.prometheusFamily->Add({{"counter", "RICSubscriptionDeleteAckMsgs"}});
+ sctpParams.e2tCounters[IN_SUCC][BYTES_COUNTER][ProcedureCode_id_RICsubscriptionDelete] = &sctpParams.prometheusFamily->Add({{"counter", "RICSubscriptionDeleteAckBytes"}});
+
+ sctpParams.e2tCounters[IN_UN_SUCC][MSG_COUNTER][ProcedureCode_id_RICsubscriptionDelete] = &sctpParams.prometheusFamily->Add({{"counter", "RICSubscriptionDeleteFailMsgs"}});
+ sctpParams.e2tCounters[IN_UN_SUCC][BYTES_COUNTER][ProcedureCode_id_RICsubscriptionDelete] = &sctpParams.prometheusFamily->Add({{"counter", "RICSubscriptionDeleteFailBytes"}});
+
+ sctpParams.e2tCounters[IN_INITI][MSG_COUNTER][ProcedureCode_id_RICindication] = &sctpParams.prometheusFamily->Add({{"counter", "RICIndicationMsgs"}});
+ sctpParams.e2tCounters[IN_INITI][BYTES_COUNTER][ProcedureCode_id_RICindication] = &sctpParams.prometheusFamily->Add({{"counter", "RICIndicationBytes"}});
+
+ sctpParams.e2tCounters[OUT_INITI][MSG_COUNTER][ProcedureCode_id_RICserviceQuery] = &sctpParams.prometheusFamily->Add({{"counter", "RICServiceQueryMsgs"}});
+ sctpParams.e2tCounters[OUT_INITI][BYTES_COUNTER][ProcedureCode_id_RICserviceQuery] = &sctpParams.prometheusFamily->Add({{"counter", "RICServiceQueryBytes"}});
+
+ sctpParams.e2tCounters[IN_INITI][MSG_COUNTER][ProcedureCode_id_RICsubscriptionDeleteRequired] = &sctpParams.prometheusFamily->Add({{"counter", "RICSubscriptionDeleteRequiredMsgs"}});
+ sctpParams.e2tCounters[IN_INITI][BYTES_COUNTER][ProcedureCode_id_RICsubscriptionDeleteRequired] = &sctpParams.prometheusFamily->Add({{"counter", "RICSubscriptionDeleteRequiredBytes"}});
+
+}
+
void buildPrometheusList(ConnectedCU_t *peerInfo, Family<Counter> *prometheusFamily) {
peerInfo->counters[IN_INITI][MSG_COUNTER][(ProcedureCode_id_E2setup)] = &prometheusFamily->Add({{peerInfo->enodbName, "IN"}, {"SetupRequest", "Messages"}});
peerInfo->counters[IN_INITI][BYTES_COUNTER][(ProcedureCode_id_E2setup)] = &prometheusFamily->Add({{peerInfo->enodbName, "IN"}, {"SetupRequest", "Bytes"}});
+ peerInfo->counters[IN_INITI][MSG_COUNTER][(ProcedureCode_id_E2nodeConfigurationUpdate)] = &prometheusFamily->Add({{peerInfo->enodbName, "IN"}, {"E2NodeConfigUpdate", "Messages"}});
+ peerInfo->counters[IN_INITI][BYTES_COUNTER][(ProcedureCode_id_E2nodeConfigurationUpdate)] = &prometheusFamily->Add({{peerInfo->enodbName, "IN"}, {"E2NodeConfigUpdate", "Bytes"}});
+
peerInfo->counters[IN_INITI][MSG_COUNTER][(ProcedureCode_id_ErrorIndication)] = &prometheusFamily->Add({{peerInfo->enodbName, "IN"}, {"ErrorIndication", "Messages"}});
peerInfo->counters[IN_INITI][BYTES_COUNTER][(ProcedureCode_id_ErrorIndication)] = &prometheusFamily->Add({{peerInfo->enodbName, "IN"}, {"ErrorIndication", "Bytes"}});
peerInfo->counters[OUT_SUCC][MSG_COUNTER][(ProcedureCode_id_E2setup)] = &prometheusFamily->Add({{peerInfo->enodbName, "OUT"}, {"SetupResponse", "Messages"}});
peerInfo->counters[OUT_SUCC][BYTES_COUNTER][(ProcedureCode_id_E2setup)] = &prometheusFamily->Add({{peerInfo->enodbName, "OUT"}, {"SetupResponse", "Bytes"}});
+ peerInfo->counters[OUT_SUCC][MSG_COUNTER][(ProcedureCode_id_E2nodeConfigurationUpdate)] = &prometheusFamily->Add({{peerInfo->enodbName, "OUT"}, {"E2NodeConfigUpdateSuccess", "Messages"}});
+ peerInfo->counters[OUT_SUCC][BYTES_COUNTER][(ProcedureCode_id_E2nodeConfigurationUpdate)] = &prometheusFamily->Add({{peerInfo->enodbName, "OUT"}, {"E2NodeConfigUpdateSuccess", "Bytes"}});
+
peerInfo->counters[OUT_SUCC][MSG_COUNTER][(ProcedureCode_id_Reset)] = &prometheusFamily->Add({{peerInfo->enodbName, "OUT"}, {"ResetACK", "Messages"}});
peerInfo->counters[OUT_SUCC][BYTES_COUNTER][(ProcedureCode_id_Reset)] = &prometheusFamily->Add({{peerInfo->enodbName, "OUT"}, {"ResetACK", "Bytes"}});
peerInfo->counters[OUT_UN_SUCC][MSG_COUNTER][(ProcedureCode_id_E2setup)] = &prometheusFamily->Add({{peerInfo->enodbName, "OUT"}, {"SetupRequestFailure", "Messages"}});
peerInfo->counters[OUT_UN_SUCC][BYTES_COUNTER][(ProcedureCode_id_E2setup)] = &prometheusFamily->Add({{peerInfo->enodbName, "OUT"}, {"SetupRequestFailure", "Bytes"}});
+ peerInfo->counters[OUT_UN_SUCC][MSG_COUNTER][(ProcedureCode_id_E2nodeConfigurationUpdate)] = &prometheusFamily->Add({{peerInfo->enodbName, "OUT"}, {"E2NodeConfigUpdateFailure", "Messages"}});
+ peerInfo->counters[OUT_UN_SUCC][BYTES_COUNTER][(ProcedureCode_id_E2nodeConfigurationUpdate)] = &prometheusFamily->Add({{peerInfo->enodbName, "OUT"}, {"E2NodeConfigUpdateFailure", "Bytes"}});
+
peerInfo->counters[OUT_UN_SUCC][MSG_COUNTER][(ProcedureCode_id_RICserviceUpdate)] = &prometheusFamily->Add({{peerInfo->enodbName, "OUT"}, {"RICserviceUpdateFailure", "Messages"}});
peerInfo->counters[OUT_UN_SUCC][BYTES_COUNTER][(ProcedureCode_id_RICserviceUpdate)] = &prometheusFamily->Add({{peerInfo->enodbName, "OUT"}, {"RICserviceUpdateFailure", "Bytes"}});
+
+
+ peerInfo->counters[IN_INITI][MSG_COUNTER][(ProcedureCode_id_RICsubscriptionDeleteRequired)] = &prometheusFamily->Add({{peerInfo->enodbName, "IN"}, {"RICsubscriptionDeleteRequired", "Messages"}});
+ peerInfo->counters[IN_INITI][BYTES_COUNTER][(ProcedureCode_id_RICsubscriptionDeleteRequired)] = &prometheusFamily->Add({{peerInfo->enodbName, "IN"}, {"RICsubscriptionDeleteRequired", "Bytes"}});
+
+ peerInfo->counters[IN_SUCC][MSG_COUNTER][(ProcedureCode_id_E2connectionUpdate)] = &prometheusFamily->Add({{peerInfo->enodbName, "OUT"}, {"UnsupportedE2ConnectionUpdateAck", "Messages"}});
+ peerInfo->counters[IN_UN_SUCC][MSG_COUNTER][(ProcedureCode_id_E2connectionUpdate)] = &prometheusFamily->Add({{peerInfo->enodbName, "OUT"}, {"UnsupportedE2ConnectionUpdateFail", "Messages"}});
+}
+
+#ifndef UNIT_TEST
+void buildInternalCounterPrometheusList(ConnectedCU_t *peerInfo, Family<Counter> *prometheusFamily)
+{
+ mdclog_write(MDCLOG_DEBUG, "Inside buildInternalCounterPrometheusList");
+ peerInfo->e2tInternalCounters[E2T_Internal_Counters::SCTP_ABORT_INITIATED_BY_E2NODE] = &prometheusFamily->Add({{"NODEB", peerInfo->enodbName}, {"counter", "SctpAbortInitiatedByE2Node"}});
+ peerInfo->e2tInternalCounters[E2T_Internal_Counters::INVALID_MESSAGE_RECEIVED] = &prometheusFamily->Add({{"NODEB", peerInfo->enodbName}, {"counter", "InvalidMessageReceived"}});
}
+#endif
/**
*
* @param pdu
* @param RANfunctionsAdded_v
* @return
*/
-int collectSetupRequestData(E2AP_PDU_t *pdu,
- Sctp_Map_t *sctpMap,
- ReportingMessages_t &message /*, vector <string> &RANfunctionsAdded_v*/) {
- memset(message.peerInfo->enodbName, 0 , MAX_ENODB_NAME_SIZE);
- for (auto i = 0; i < pdu->choice.initiatingMessage->value.choice.E2setupRequest.protocolIEs.list.count; i++) {
+long collectSetupRequestData(E2AP_PDU_t *pdu,
+ Sctp_Map_t *sctpMap,
+ ReportingMessages_t &message /*, vector <string> &RANfunctionsAdded_v*/) {
+ long transactionId = negativeOne;
+ memset(message.peerInfo->enodbName, numberZero , MAX_ENODB_NAME_SIZE);
+ for (auto i = numberZero; i < pdu->choice.initiatingMessage->value.choice.E2setupRequest.protocolIEs.list.count; i++) {
auto *ie = pdu->choice.initiatingMessage->value.choice.E2setupRequest.protocolIEs.list.array[i];
if (ie->id == ProtocolIE_ID_id_GlobalE2node_ID) {
// get the ran name for meid
if (ie->value.present == E2setupRequestIEs__value_PR_GlobalE2node_ID) {
- if (buildRanName(message.peerInfo->enodbName, ie) < 0) {
+ mdclog_write(MDCLOG_DEBUG, "GnbId is present");
+ #ifndef UNIT_TEST
+ if (buildRanName(message.peerInfo->enodbName, ie) < numberZero) {
mdclog_write(MDCLOG_ERR, "Bad param in E2setupRequestIEs GlobalE2node_ID.\n");
// no message will be sent
- return -1;
+ return negativeOne;
}
-
+ #endif
memcpy(message.message.enodbName, message.peerInfo->enodbName, strlen(message.peerInfo->enodbName));
sctpMap->setkey(message.message.enodbName, message.peerInfo);
}
}
}
} */
+ if (ie->id == ProtocolIE_ID_id_TransactionID) {
+ if (ie->value.present == E2setupRequestIEs__value_PR_TransactionID) {
+ mdclog_write(MDCLOG_DEBUG, "TransactionId is present in E2SetupReq");
+
+ transactionId = ie->value.choice.TransactionID;
+ mdclog_write(MDCLOG_DEBUG, "TransactionId is %ld", transactionId);
+ }
+ }
}
// if (mdclog_level_get() >= MDCLOG_DEBUG) {
// mdclog_write(MDCLOG_DEBUG, "Run function vector have %ld entries",
// RANfunctionsAdded_v.size());
// }
- return 0;
+ return transactionId;
}
int XML_From_PER(ReportingMessages_t &message, RmrMessagesBuffer_t &rmrMessageBuffer) {
mdclog_write(MDCLOG_ERR, "Error %d Decoding (unpack) setup response from E2MGR : %s",
rval.code,
message.message.enodbName);
+ if (pdu != nullptr) {
+ ASN_STRUCT_FREE(asn_DEF_E2AP_PDU, pdu);
+ pdu = nullptr;
+ }
return -1;
}
rmrMessageBuffer.sendMessage->payload, buff_size);
if (er.encoded == -1) {
mdclog_write(MDCLOG_ERR, "encoding of %s failed, %s", asn_DEF_E2AP_PDU.name, strerror(errno));
+ if (pdu != nullptr) {
+ ASN_STRUCT_FREE(asn_DEF_E2AP_PDU, pdu);
+ pdu = nullptr;
+ }
return -1;
} else if (er.encoded > (ssize_t)buff_size) {
mdclog_write(MDCLOG_ERR, "Buffer of size %d is to small for %s, at %s line %d",
asn_DEF_E2AP_PDU.name,
__func__,
__LINE__);
+ if (pdu != nullptr) {
+ ASN_STRUCT_FREE(asn_DEF_E2AP_PDU, pdu);
+ pdu = nullptr;
+ }
return -1;
}
rmrMessageBuffer.sendMessage->len = er.encoded;
+ if (pdu != nullptr) {
+ ASN_STRUCT_FREE(asn_DEF_E2AP_PDU, pdu);
+ pdu = nullptr;
+ }
return 0;
}
void asnInitiatingRequest(E2AP_PDU_t *pdu,
Sctp_Map_t *sctpMap,
ReportingMessages_t &message,
- RmrMessagesBuffer_t &rmrMessageBuffer) {
+ RmrMessagesBuffer_t &rmrMessageBuffer, int streamId) {
auto logLevel = mdclog_level_get();
auto procedureCode = ((InitiatingMessage_t *) pdu->choice.initiatingMessage)->procedureCode;
if (logLevel >= MDCLOG_DEBUG) {
}
switch (procedureCode) {
case ProcedureCode_id_E2setup: {
+
if (logLevel >= MDCLOG_DEBUG) {
mdclog_write(MDCLOG_DEBUG, "Got E2setup");
}
// vector <string> RANfunctionsModified_v;
// RANfunctionsAdded_v.clear();
// RANfunctionsModified_v.clear();
- if (collectSetupRequestData(pdu, sctpMap, message) != 0) {
+ long transactionID = collectSetupRequestData(pdu, sctpMap, message);
+ mdclog_write(MDCLOG_DEBUG, "transactionID returned is %ld", transactionID);
+
+ if (transactionID < numberZero)
+ {
+ mdclog_write(MDCLOG_ERR, "Invalid TransactionID or GnbIb");
break;
}
- buildPrometheusList(message.peerInfo, message.peerInfo->sctpParams->prometheusFamily);
-
- string messageName("E2setupRequest");
- string ieName("E2setupRequestIEs");
- message.message.messageType = RIC_E2_SETUP_REQ;
- message.peerInfo->counters[IN_INITI][MSG_COUNTER][ProcedureCode_id_E2setup]->Increment();
- message.peerInfo->counters[IN_INITI][BYTES_COUNTER][ProcedureCode_id_E2setup]->Increment((double)message.message.asnLength);
- buildAndSendSetupRequest(message, rmrMessageBuffer, pdu);
+ mdclog_write(MDCLOG_DEBUG, "Calling handleE2SetupReq");
+ handleE2SetupReq(message, rmrMessageBuffer, pdu, transactionID, streamId, sctpMap);
break;
}
case ProcedureCode_id_RICserviceUpdate: {
+ struct E2NodeConnectionHandling e2NodeConnectionHandling;
+ bool isE2SetupRequestReceived = getE2tProcedureOngoingStatus(message.message.enodbName, e2NodeConnectionHandling);
+ mdclog_write(MDCLOG_DEBUG, "Value of isE2SetupRequestReceived is %s", isE2SetupRequestReceived == true ? "true" : "false");
+ if (!isE2SetupRequestReceived)
+ {
+ mdclog_write(MDCLOG_WARN, "E2Setup procedure is not initiated, ignoring received RICserviceUpdate");
+ return ;
+ }
if (logLevel >= MDCLOG_DEBUG) {
mdclog_write(MDCLOG_DEBUG, "Got RICserviceUpdate %s", message.message.enodbName);
}
+
+ mdclog_write(MDCLOG_DEBUG, "EnbName is %s New Procedure state is %d", message.message.enodbName, E2_SETUP_PROCEDURE_COMPLETED);
+ setE2ProcedureOngoingStatus(message.message.enodbName, E2_SETUP_PROCEDURE_COMPLETED);
// vector <string> RANfunctionsAdded_v;
// vector <string> RANfunctionsModified_v;
// RANfunctionsAdded_v.clear();
string messageName("RICserviceUpdate");
string ieName("RICserviceUpdateIEs");
message.message.messageType = RIC_SERVICE_UPDATE;
+#if !(defined(UNIT_TEST) || defined(MODULE_TEST))
message.peerInfo->counters[IN_INITI][MSG_COUNTER][ProcedureCode_id_RICserviceUpdate]->Increment();
message.peerInfo->counters[IN_INITI][BYTES_COUNTER][ProcedureCode_id_RICserviceUpdate]->Increment((double)message.message.asnLength);
+ // Update E2T instance level metrics
+ message.peerInfo->sctpParams->e2tCounters[IN_INITI][MSG_COUNTER][ProcedureCode_id_RICserviceUpdate]->Increment();
+ message.peerInfo->sctpParams->e2tCounters[IN_INITI][BYTES_COUNTER][ProcedureCode_id_RICserviceUpdate]->Increment((double)message.message.asnLength);
+#endif
+ #ifndef UNIT_TEST
buildAndSendSetupRequest(message, rmrMessageBuffer, pdu);
+ #endif
+
+ mdclog_write(MDCLOG_DEBUG, "EnbName is %s New Procedure state is %d", message.message.enodbName, E2_SETUP_PROCEDURE_COMPLETED);
+ setE2ProcedureOngoingStatus(message.message.enodbName, RIC_SERVICE_UPDATE_PROCEDURE_ONGOING);
break;
}
- case ProcedureCode_id_ErrorIndication: {
+
+case ProcedureCode_id_E2nodeConfigurationUpdate: {
+ struct E2NodeConnectionHandling e2NodeConnectionHandling;
+ bool isE2SetupRequestReceived = getE2tProcedureOngoingStatus(message.message.enodbName, e2NodeConnectionHandling);
+ mdclog_write(MDCLOG_DEBUG, "Value of isE2SetupRequestReceived is %s", isE2SetupRequestReceived == true ? "true" : "false");
+ if (!isE2SetupRequestReceived)
+ {
+ mdclog_write(MDCLOG_WARN, "E2Setup procedure is not initiated, ignoring received E2nodeConfigurationUpdate");
+ return ;
+ }
if (logLevel >= MDCLOG_DEBUG) {
- mdclog_write(MDCLOG_DEBUG, "Got ErrorIndication %s", message.message.enodbName);
+ mdclog_write(MDCLOG_DEBUG, "Got E2nodeConfigurationUpdate %s", message.message.enodbName);
+ }
+
+ string messageName("RICE2nodeConfigurationUpdate");
+ string ieName("RICE2nodeConfigurationUpdateIEs");
+ message.message.messageType = RIC_E2NODE_CONFIG_UPDATE;
+#if !(defined(UNIT_TEST) || defined(MODULE_TEST))
+ message.peerInfo->counters[IN_INITI][MSG_COUNTER][ProcedureCode_id_E2nodeConfigurationUpdate]->Increment();
+ message.peerInfo->counters[IN_INITI][BYTES_COUNTER][ProcedureCode_id_E2nodeConfigurationUpdate]->Increment((double)message.message.asnLength);
+
+ // Update E2T instance level metrics
+ message.peerInfo->sctpParams->e2tCounters[IN_INITI][MSG_COUNTER][ProcedureCode_id_E2nodeConfigurationUpdate]->Increment();
+ message.peerInfo->sctpParams->e2tCounters[IN_INITI][BYTES_COUNTER][ProcedureCode_id_E2nodeConfigurationUpdate]->Increment((double)message.message.asnLength);
+
+ buildAndSendSetupRequest(message, rmrMessageBuffer, pdu);
+#endif
+ break;
+ }
+
+ case ProcedureCode_id_ErrorIndication: {
+ struct E2NodeConnectionHandling e2NodeConnectionHandling;
+ bool isE2SetupRequestReceived = getE2tProcedureOngoingStatus(message.message.enodbName, e2NodeConnectionHandling);
+ if (!isE2SetupRequestReceived){
+ mdclog_write(MDCLOG_WARN, "E2Setup procedure is not initiated, ignoring received ErrorIndication");
+ return ;
+ }
+
+ asn_fprint(stdout, &asn_DEF_E2AP_PDU, pdu);
+
+ mdclog_write(MDCLOG_INFO, "Got ErrorIndication %s sub id = %d, mtype = %d", message.message.enodbName,
+ rmrMessageBuffer.sendMessage->sub_id, rmrMessageBuffer.sendMessage->mtype);
+
+ int procedureCode = numberZero;
+ bitset<requiredIePresentMaxBitSetPosition> isRequiredIesPresent(0); // TransactionId==0, RicRequestId==1, Cause==2
+
+ for (auto i = numberZero; i < pdu->choice.initiatingMessage->value.choice.ErrorIndication.protocolIEs.list.count; i++) {
+ ErrorIndication_IEs_t *ie = pdu->choice.initiatingMessage->value.choice.ErrorIndication.protocolIEs.list.array[i];
+ if (ie->id == ProtocolIE_ID_id_TransactionID) {
+ if (ie->value.present == ErrorIndication_IEs__value_PR_TransactionID) {
+ mdclog_write(MDCLOG_DEBUG, "TransactionID in ErrorIndication Message is %ld ", ie->value.choice.TransactionID);
+ if (e2NodeConnectionHandling.e2SetupProcedureTransactionId == ie->value.choice.TransactionID)
+ {
+ isRequiredIesPresent.set(transactionIdIeBitSetPosition);
+ }
+ }
+ }
+ if (ie->id == ProtocolIE_ID_id_RICrequestID) {
+ if (ie->value.present == ErrorIndication_IEs__value_PR_RICrequestID) {
+ isRequiredIesPresent.set(ricRequestIdIeBitSetPosition);
+ mdclog_write(MDCLOG_DEBUG, "RIC instance id %ld, RIC requestor id = %ld",
+ ie->value.choice.RICrequestID.ricInstanceID,
+ ie->value.choice.RICrequestID.ricRequestorID);
+ }
+ }
+ if (ie->id == ProtocolIE_ID_id_Cause) {
+ if (ie->value.present == ErrorIndication_IEs__value_PR_Cause) {
+ isRequiredIesPresent.set(causeIeBitSetPosition);
+ }
+ }
+ if (ie->id == ProtocolIE_ID_id_CriticalityDiagnostics) {
+ if (ie->value.present == ErrorIndication_IEs__value_PR_CriticalityDiagnostics) {
+ if (ie->value.choice.CriticalityDiagnostics.procedureCode)
+ {
+ procedureCode = *(ie->value.choice.CriticalityDiagnostics.procedureCode);
+ mdclog_write(MDCLOG_DEBUG, "ProcedureCode Value is %ld", procedureCode);
+ }
+ }
+ }
+ }
+
+ // Msg being sent to E2M = 0, Msg being sent to SubMgr = 1
+ bitset<sendMsgMaxBitPosition> sendMsgTo = getSendMsgBitSetValue(procedureCode, isRequiredIesPresent, message.message.enodbName);
+
+ if(sendMsgTo.test(sendMsgToE2MBitSetPosition))
+ {
+ message.message.messageType = RIC_E2_RIC_ERROR_INDICATION;
+ mdclog_write(MDCLOG_INFO, "Sending ErrorIndication Message to E2Manager");
+ #ifndef UNIT_TEST
+ buildAndSendSetupRequest(message, rmrMessageBuffer, pdu);
+ #endif
+ }
+ else if (sendMsgTo.test(sendMsgToSubMgrBitSetPosition))
+ {
+ if (sendRequestToXapp(message, RIC_E2_RAN_ERROR_INDICATION, rmrMessageBuffer) != 0) {
+ mdclog_write(MDCLOG_ERR, "Subscription successful message failed to send to SubMgr");
+ }
+ else {
+ mdclog_write(MDCLOG_INFO, "Successfully Sent ErrorIndication Message to SubMgr");
+ }
}
+ else
+ {
+ mdclog_write(MDCLOG_INFO, "No action taken on ErrorIndication Message as TransactionId/Ric RequestID/Cause not present/invalid");
+ }
+
+ #if !(defined(UNIT_TEST) || defined(MODULE_TEST))
message.peerInfo->counters[IN_INITI][MSG_COUNTER][ProcedureCode_id_ErrorIndication]->Increment();
message.peerInfo->counters[IN_INITI][BYTES_COUNTER][ProcedureCode_id_ErrorIndication]->Increment((double)message.message.asnLength);
+
+ // Update E2T instance level metrics
+ message.peerInfo->sctpParams->e2tCounters[IN_INITI][MSG_COUNTER][ProcedureCode_id_ErrorIndication]->Increment();
+ message.peerInfo->sctpParams->e2tCounters[IN_INITI][BYTES_COUNTER][ProcedureCode_id_ErrorIndication]->Increment((double)message.message.asnLength);
+ #endif
+
+ /*Not to break below functionality which is used to send to Xapp*/
if (sendRequestToXapp(message, RIC_ERROR_INDICATION, rmrMessageBuffer) != 0) {
mdclog_write(MDCLOG_ERR, "RIC_ERROR_INDICATION failed to send to xAPP");
}
break;
}
case ProcedureCode_id_Reset: {
+ struct E2NodeConnectionHandling e2NodeConnectionHandling;
+ bool isE2SetupRequestReceived = getE2tProcedureOngoingStatus(message.message.enodbName, e2NodeConnectionHandling);
+ mdclog_write(MDCLOG_DEBUG, "Value of isE2SetupRequestReceived is %s", isE2SetupRequestReceived == true ? "true" : "false");
+ if (!isE2SetupRequestReceived){
+ mdclog_write(MDCLOG_WARN, "E2Setup procedure is not initiated, ignoring received Reset");
+ return ;
+ }
if (logLevel >= MDCLOG_DEBUG) {
mdclog_write(MDCLOG_DEBUG, "Got Reset %s", message.message.enodbName);
}
-
+#if !(defined(UNIT_TEST) || defined(MODULE_TEST))
message.peerInfo->counters[IN_INITI][MSG_COUNTER][ProcedureCode_id_Reset]->Increment();
message.peerInfo->counters[IN_INITI][BYTES_COUNTER][ProcedureCode_id_Reset]->Increment((double)message.message.asnLength);
- if (XML_From_PER(message, rmrMessageBuffer) < 0) {
+
+ // Update E2T instance level metrics
+ message.peerInfo->sctpParams->e2tCounters[IN_INITI][MSG_COUNTER][ProcedureCode_id_Reset]->Increment();
+ message.peerInfo->sctpParams->e2tCounters[IN_INITI][BYTES_COUNTER][ProcedureCode_id_Reset]->Increment((double)message.message.asnLength);
+#endif
+ if (XML_From_PER(message, rmrMessageBuffer) < numberZero) {
break;
}
- if (sendRequestToXapp(message, RIC_E2_RESET_REQ, rmrMessageBuffer) != 0) {
+ if (sendRequestToXapp(message, RIC_E2_RESET_REQ, rmrMessageBuffer) != numberZero) {
mdclog_write(MDCLOG_ERR, "RIC_E2_RESET_REQ message failed to send to xAPP");
}
break;
}
case ProcedureCode_id_RICindication: {
+ struct E2NodeConnectionHandling e2NodeConnectionHandling;
+ bool isE2SetupRequestReceived = getE2tProcedureOngoingStatus(message.message.enodbName, e2NodeConnectionHandling);
+ mdclog_write(MDCLOG_DEBUG, "Value of isE2SetupRequestReceived is %s", isE2SetupRequestReceived == true ? "true" : "false");
+ if (!isE2SetupRequestReceived){
+ mdclog_write(MDCLOG_WARN, "E2Setup procedure is not initiated, ignoring received RICIndication");
+ return ;
+ }
if (logLevel >= MDCLOG_DEBUG) {
mdclog_write(MDCLOG_DEBUG, "Got RICindication %s", message.message.enodbName);
}
- for (auto i = 0; i < pdu->choice.initiatingMessage->value.choice.RICindication.protocolIEs.list.count; i++) {
+
+ mdclog_write(MDCLOG_DEBUG, "EnbName is %s New Procedure State is %d", message.message.enodbName, RIC_INDICATION_PROCEDURE_ONGOING);
+ setE2ProcedureOngoingStatus(message.message.enodbName, RIC_INDICATION_PROCEDURE_ONGOING);
+
+ for (auto i = numberZero; i < pdu->choice.initiatingMessage->value.choice.RICindication.protocolIEs.list.count; i++) {
auto messageSent = false;
RICindication_IEs_t *ie = pdu->choice.initiatingMessage->value.choice.RICindication.protocolIEs.list.array[i];
if (logLevel >= MDCLOG_DEBUG) {
rmr_bytes2meid(rmrMessageBuffer.sendMessage,
(unsigned char *)message.message.enodbName,
strlen(message.message.enodbName));
- rmrMessageBuffer.sendMessage->state = 0;
+ rmrMessageBuffer.sendMessage->state = numberZero;
rmrMessageBuffer.sendMessage->sub_id = (int)ie->value.choice.RICrequestID.ricInstanceID;
//ie->value.choice.RICrequestID.ricInstanceID;
ie->value.choice.RICrequestID.ricInstanceID,
ie->value.choice.RICrequestID.ricRequestorID);
}
+#if !(defined(UNIT_TEST) || defined(MODULE_TEST))
message.peerInfo->counters[IN_INITI][MSG_COUNTER][ProcedureCode_id_RICindication]->Increment();
message.peerInfo->counters[IN_INITI][BYTES_COUNTER][ProcedureCode_id_RICindication]->Increment((double)message.message.asnLength);
+
+ // Update E2T instance level metrics
+ message.peerInfo->sctpParams->e2tCounters[IN_INITI][MSG_COUNTER][ProcedureCode_id_RICindication]->Increment();
+ message.peerInfo->sctpParams->e2tCounters[IN_INITI][BYTES_COUNTER][ProcedureCode_id_RICindication]->Increment((double)message.message.asnLength);
+#endif
sendRmrMessage(rmrMessageBuffer, message);
messageSent = true;
} else {
}
}
if (messageSent) {
+ mdclog_write(MDCLOG_DEBUG, "EnbName is %s New Procedure State is %d", message.message.enodbName, RIC_INDICATION_PROCEDURE_COMPLETED);
+ setE2ProcedureOngoingStatus(message.message.enodbName, RIC_INDICATION_PROCEDURE_COMPLETED);
break;
}
}
break;
}
+ case ProcedureCode_id_RICsubscriptionDeleteRequired: {
+ struct E2NodeConnectionHandling e2NodeConnectionHandling;
+ mdclog_write(MDCLOG_ERR, "Undefined or not supported message = %ld", procedureCode);
+ bool isE2SetupRequestReceived = getE2tProcedureOngoingStatus(message.message.enodbName, e2NodeConnectionHandling);
+ mdclog_write(MDCLOG_DEBUG, "Value of isE2SetupRequestReceived is %s", isE2SetupRequestReceived == true ? "true" : "false");
+ if (!isE2SetupRequestReceived){
+ mdclog_write(MDCLOG_WARN, "E2Setup procedure is not initiated, ignoring Unsupported Message with procedureCode = %ld", procedureCode);
+ return ;
+ }
+ if (logLevel >= MDCLOG_DEBUG) {
+ mdclog_write(MDCLOG_DEBUG, "Got RICsubscriptionDeleteRequired %s", message.message.enodbName);
+ }
+ #if !(defined(UNIT_TEST) || defined(MODULE_TEST))
+ message.peerInfo->counters[IN_INITI][MSG_COUNTER][ProcedureCode_id_RICsubscriptionDeleteRequired]->Increment();
+ message.peerInfo->counters[IN_INITI][BYTES_COUNTER][ProcedureCode_id_RICsubscriptionDeleteRequired]->Increment((double)message.message.asnLength);
+
+ // Update E2T instance level metrics
+ message.peerInfo->sctpParams->e2tCounters[IN_INITI][MSG_COUNTER][ProcedureCode_id_RICsubscriptionDeleteRequired]->Increment();
+ message.peerInfo->sctpParams->e2tCounters[IN_INITI][BYTES_COUNTER][ProcedureCode_id_RICsubscriptionDeleteRequired]->Increment((double)message.message.asnLength);
+ #endif
+ if (sendRequestToXapp(message, RIC_SUB_DEL_REQUIRED, rmrMessageBuffer) != 0) {
+ mdclog_write(MDCLOG_ERR, "Subscription Delete Required message failed to send to xAPP");
+ }
+ break;
+ }
+
default: {
+ struct E2NodeConnectionHandling e2NodeConnectionHandling;
mdclog_write(MDCLOG_ERR, "Undefined or not supported message = %ld", procedureCode);
- message.message.messageType = 0; // no RMR message type yet
+ bool isE2SetupRequestReceived = getE2tProcedureOngoingStatus(message.message.enodbName, e2NodeConnectionHandling);
+ mdclog_write(MDCLOG_DEBUG, "Value of isE2SetupRequestReceived is %s", isE2SetupRequestReceived == true ? "true" : "false");
+ if (!isE2SetupRequestReceived){
+ mdclog_write(MDCLOG_WARN, "E2Setup procedure is not initiated, ignoring Unsupported Message with procedureCode = %ld", procedureCode);
+ return ;
+ }
+ message.message.messageType = numberZero; // no RMR message type yet
+ mdclog_write(MDCLOG_ERR, "Invalid Message Received at E2T");
+ mdclog_write(MDCLOG_ERR, "Counter Incrementing for Invalid Message");
+ #ifndef UNIT_TEST
+ if (message.peerInfo->e2tInternalCounters[E2T_Internal_Counters::INVALID_MESSAGE_RECEIVED])
+ {
+ mdclog_write(MDCLOG_DEBUG, "Incrementing INVALID_MESSAGE_RECEIVED Counter");
+ message.peerInfo->e2tInternalCounters[E2T_Internal_Counters::INVALID_MESSAGE_RECEIVED]->Increment();
+ mdclog_write(MDCLOG_DEBUG, "Incremented INVALID_MESSAGE_RECEIVED Counter");
+ }
+ #endif
buildJsonMessage(message);
}
switch (procedureCode) {
case ProcedureCode_id_Reset: {
+ struct E2NodeConnectionHandling e2NodeConnectionHandling;
+ bool isE2SetupRequestReceived = getE2tProcedureOngoingStatus(message.message.enodbName, e2NodeConnectionHandling);
+ mdclog_write(MDCLOG_DEBUG, "Value of isE2SetupRequestReceived is %s", isE2SetupRequestReceived == true ? "true" : "false");
+ if (!isE2SetupRequestReceived)
+ {
+ mdclog_write(MDCLOG_WARN, "E2Setup procedure is not initiated, ignoring received Reset message");
+ return ;
+ }
if (logLevel >= MDCLOG_DEBUG) {
mdclog_write(MDCLOG_DEBUG, "Got Reset %s", message.message.enodbName);
}
+#if !(defined(UNIT_TEST) || defined(MODULE_TEST))
message.peerInfo->counters[IN_SUCC][MSG_COUNTER][ProcedureCode_id_Reset]->Increment();
message.peerInfo->counters[IN_SUCC][BYTES_COUNTER][ProcedureCode_id_Reset]->Increment((double)message.message.asnLength);
- if (XML_From_PER(message, rmrMessageBuffer) < 0) {
+
+ // Update E2T instance level metrics
+ message.peerInfo->sctpParams->e2tCounters[IN_SUCC][MSG_COUNTER][ProcedureCode_id_Reset]->Increment();
+ message.peerInfo->sctpParams->e2tCounters[IN_SUCC][BYTES_COUNTER][ProcedureCode_id_Reset]->Increment((double)message.message.asnLength);
+#endif
+ if (XML_From_PER(message, rmrMessageBuffer) < numberZero) {
break;
}
if (sendRequestToXapp(message, RIC_E2_RESET_RESP, rmrMessageBuffer) != 0) {
break;
}
case ProcedureCode_id_RICcontrol: {
+ struct E2NodeConnectionHandling e2NodeConnectionHandling;
+ bool isE2SetupRequestReceived = getE2tProcedureOngoingStatus(message.message.enodbName, e2NodeConnectionHandling);
+ mdclog_write(MDCLOG_DEBUG, "Value of isE2SetupRequestReceived is %s", isE2SetupRequestReceived == true ? "true" : "false");
+ if (!isE2SetupRequestReceived){
+ mdclog_write(MDCLOG_WARN, "E2Setup procedure is not initiated, ignoring received RICcontrol");
+ return ;
+ }
if (logLevel >= MDCLOG_DEBUG) {
mdclog_write(MDCLOG_DEBUG, "Got RICcontrol %s", message.message.enodbName);
}
- for (auto i = 0;
+ for (auto i = numberZero;
i < pdu->choice.successfulOutcome->value.choice.RICcontrolAcknowledge.protocolIEs.list.count; i++) {
auto messageSent = false;
RICcontrolAcknowledge_IEs_t *ie = pdu->choice.successfulOutcome->value.choice.RICcontrolAcknowledge.protocolIEs.list.array[i];
}
if (ie->value.present == RICcontrolAcknowledge_IEs__value_PR_RICrequestID) {
message.message.messageType = rmrMessageBuffer.sendMessage->mtype = RIC_CONTROL_ACK;
- rmrMessageBuffer.sendMessage->state = 0;
+ rmrMessageBuffer.sendMessage->state = numberZero;
// rmrMessageBuffer.sendMessage->sub_id = (int) ie->value.choice.RICrequestID.ricRequestorID;
rmrMessageBuffer.sendMessage->sub_id = (int)ie->value.choice.RICrequestID.ricInstanceID;
rmr_bytes2meid(rmrMessageBuffer.sendMessage,
(unsigned char *)message.message.enodbName,
strlen(message.message.enodbName));
-
+#if !(defined(UNIT_TEST) || defined(MODULE_TEST))
message.peerInfo->counters[IN_SUCC][MSG_COUNTER][ProcedureCode_id_RICcontrol]->Increment();
message.peerInfo->counters[IN_SUCC][BYTES_COUNTER][ProcedureCode_id_RICcontrol]->Increment((double)message.message.asnLength);
+
+ // Update E2T instance level metrics
+ message.peerInfo->sctpParams->e2tCounters[IN_SUCC][MSG_COUNTER][ProcedureCode_id_RICcontrol]->Increment();
+ message.peerInfo->sctpParams->e2tCounters[IN_SUCC][BYTES_COUNTER][ProcedureCode_id_RICcontrol]->Increment((double)message.message.asnLength);
+#endif
sendRmrMessage(rmrMessageBuffer, message);
messageSent = true;
} else {
}
}
if (messageSent) {
+ mdclog_write(MDCLOG_DEBUG, "EnbName is %s New Procedure State is %d", message.message.enodbName, CONTROL_PROCEDURE_COMPLETED);
+ setE2ProcedureOngoingStatus(message.message.enodbName, CONTROL_PROCEDURE_COMPLETED);
break;
}
}
break;
}
case ProcedureCode_id_RICsubscription: {
+ struct E2NodeConnectionHandling e2NodeConnectionHandling;
+ bool isE2SetupRequestReceived = getE2tProcedureOngoingStatus(message.message.enodbName, e2NodeConnectionHandling);
+ mdclog_write(MDCLOG_DEBUG, "Value of isE2SetupRequestReceived is %s", isE2SetupRequestReceived == true ? "true" : "false");
+ if (!isE2SetupRequestReceived){
+ mdclog_write(MDCLOG_WARN, "E2Setup procedure is not initiated, ignoring received RICsubscription");
+ return ;
+ }
if (logLevel >= MDCLOG_DEBUG) {
mdclog_write(MDCLOG_DEBUG, "Got RICsubscription %s", message.message.enodbName);
}
+#if !(defined(UNIT_TEST) || defined(MODULE_TEST))
message.peerInfo->counters[IN_SUCC][MSG_COUNTER][ProcedureCode_id_RICsubscription]->Increment();
message.peerInfo->counters[IN_SUCC][BYTES_COUNTER][ProcedureCode_id_RICsubscription]->Increment((double)message.message.asnLength);
- if (sendRequestToXapp(message, RIC_SUB_RESP, rmrMessageBuffer) != 0) {
+
+ // Update E2T instance level metrics
+ message.peerInfo->sctpParams->e2tCounters[IN_SUCC][MSG_COUNTER][ProcedureCode_id_RICsubscription]->Increment();
+ message.peerInfo->sctpParams->e2tCounters[IN_SUCC][BYTES_COUNTER][ProcedureCode_id_RICsubscription]->Increment((double)message.message.asnLength);
+#endif
+ if (sendRequestToXapp(message, RIC_SUB_RESP, rmrMessageBuffer) != numberZero) {
mdclog_write(MDCLOG_ERR, "Subscription successful message failed to send to xAPP");
}
+ mdclog_write(MDCLOG_DEBUG, "EnbName is %s New Procedure State is %d", message.message.enodbName, RIC_INDICATION_PROCEDURE_ONGOING);
+ setE2ProcedureOngoingStatus(message.message.enodbName, RIC_INDICATION_PROCEDURE_ONGOING);
break;
}
case ProcedureCode_id_RICsubscriptionDelete: {
+ struct E2NodeConnectionHandling e2NodeConnectionHandling;
+ bool isE2SetupRequestReceived = getE2tProcedureOngoingStatus(message.message.enodbName, e2NodeConnectionHandling);
+ mdclog_write(MDCLOG_DEBUG, "Value of isE2SetupRequestReceived is %s", isE2SetupRequestReceived == true ? "true" : "false");
+ if (!isE2SetupRequestReceived){
+ mdclog_write(MDCLOG_WARN, "E2Setup procedure is not initiated, ignoring received RICsubscriptionDelete");
+ return ;
+ }
if (logLevel >= MDCLOG_DEBUG) {
mdclog_write(MDCLOG_DEBUG, "Got RICsubscriptionDelete %s", message.message.enodbName);
}
+
+ mdclog_write(MDCLOG_DEBUG, "EnbName is %s New Procedure state is %d", message.message.enodbName, RIC_SUBS_DEL_PROCEDURE_COMPLETED);
+ setE2ProcedureOngoingStatus(message.message.enodbName, RIC_SUBS_DEL_PROCEDURE_COMPLETED);
+#if !(defined(UNIT_TEST) || defined(MODULE_TEST))
message.peerInfo->counters[IN_SUCC][MSG_COUNTER][ProcedureCode_id_RICsubscriptionDelete]->Increment();
message.peerInfo->counters[IN_SUCC][BYTES_COUNTER][ProcedureCode_id_RICsubscriptionDelete]->Increment((double)message.message.asnLength);
- if (sendRequestToXapp(message, RIC_SUB_DEL_RESP, rmrMessageBuffer) != 0) {
+
+ // Update E2T instance level metrics
+ message.peerInfo->sctpParams->e2tCounters[IN_SUCC][MSG_COUNTER][ProcedureCode_id_RICsubscriptionDelete]->Increment();
+ message.peerInfo->sctpParams->e2tCounters[IN_SUCC][BYTES_COUNTER][ProcedureCode_id_RICsubscriptionDelete]->Increment((double)message.message.asnLength);
+#endif
+ if (sendRequestToXapp(message, RIC_SUB_DEL_RESP, rmrMessageBuffer) != numberZero) {
mdclog_write(MDCLOG_ERR, "Subscription delete successful message failed to send to xAPP");
}
+ mdclog_write(MDCLOG_DEBUG, "EnbName is %s New Procedure State is %d", message.message.enodbName, RIC_INDICATION_PROCEDURE_ONGOING);
+ setE2ProcedureOngoingStatus(message.message.enodbName, RIC_INDICATION_PROCEDURE_ONGOING);
break;
}
default: {
- mdclog_write(MDCLOG_WARN, "Undefined or not supported message = %ld", procedureCode);
- message.message.messageType = 0; // no RMR message type yet
+ struct E2NodeConnectionHandling e2NodeConnectionHandling;
+ mdclog_write(MDCLOG_ERR, "Undefined or not supported message = %ld", procedureCode);
+ bool isE2SetupRequestReceived = getE2tProcedureOngoingStatus(message.message.enodbName, e2NodeConnectionHandling);
+ mdclog_write(MDCLOG_DEBUG, "Value of isE2SetupRequestReceived is %s", isE2SetupRequestReceived == true ? "true" : "false");
+ if (!isE2SetupRequestReceived){
+ mdclog_write(MDCLOG_WARN, "E2Setup procedure is not initiated, ignoring Unsupported Message with procedureCode = %ld", procedureCode);
+ return ;
+ }
+ message.message.messageType = numberZero; // no RMR message type yet
+ if (procedureCode == ProcedureCode_id_E2connectionUpdate)
+ {
+ mdclog_write(MDCLOG_ERR, "Unsupported message E2Connection Update Ack Received at E2T, procedureCode = %ld", procedureCode);
+
+ mdclog_write(MDCLOG_ERR, "Counter Incrementing for Unsupported E2Connection Update Ack Message");
+ #ifndef UNIT_TEST
+ message.peerInfo->counters[IN_SUCC][MSG_COUNTER][ProcedureCode_id_E2connectionUpdate]->Increment();
+ #endif
+ }
+ else {
+ mdclog_write(MDCLOG_ERR, "Invalid Message Received at E2T");
+ mdclog_write(MDCLOG_ERR, "Counter Incrementing for Invalid Message");
+ #ifndef UNIT_TEST
+ if (message.peerInfo->e2tInternalCounters[E2T_Internal_Counters::INVALID_MESSAGE_RECEIVED])
+ {
+ mdclog_write(MDCLOG_DEBUG, "Incrementing INVALID_MESSAGE_RECEIVED Counter");
+ message.peerInfo->e2tInternalCounters[E2T_Internal_Counters::INVALID_MESSAGE_RECEIVED]->Increment();
+ mdclog_write(MDCLOG_DEBUG, "Incremented INVALID_MESSAGE_RECEIVED Counter");
+ }
+ #endif
+ }
buildJsonMessage(message);
break;
}
switch (procedureCode) {
case ProcedureCode_id_RICcontrol: {
+ struct E2NodeConnectionHandling e2NodeConnectionHandling;
+ bool isE2SetupRequestReceived = getE2tProcedureOngoingStatus(message.message.enodbName, e2NodeConnectionHandling);
+ mdclog_write(MDCLOG_DEBUG, "Value of isE2SetupRequestReceived is %s", isE2SetupRequestReceived == true ? "true" : "false");
+ if (!isE2SetupRequestReceived)
+ {
+ mdclog_write(MDCLOG_WARN, "E2Setup procedure is not initiated, ignoring received RICcontrol");
+ return ;
+ }
if (logLevel >= MDCLOG_DEBUG) {
mdclog_write(MDCLOG_DEBUG, "Got RICcontrol %s", message.message.enodbName);
}
rmr_bytes2xact(rmrMessageBuffer.sendMessage, tx, strlen((const char *) tx));
rmr_bytes2meid(rmrMessageBuffer.sendMessage, (unsigned char *) message.message.enodbName,
strlen(message.message.enodbName));
+#if !(defined(UNIT_TEST) || defined(MODULE_TEST))
message.peerInfo->counters[IN_UN_SUCC][MSG_COUNTER][ProcedureCode_id_RICcontrol]->Increment();
message.peerInfo->counters[IN_UN_SUCC][BYTES_COUNTER][ProcedureCode_id_RICcontrol]->Increment((double)message.message.asnLength);
+
+ // Update E2T instance level metrics
+ message.peerInfo->sctpParams->e2tCounters[IN_UN_SUCC][MSG_COUNTER][ProcedureCode_id_RICcontrol]->Increment();
+ message.peerInfo->sctpParams->e2tCounters[IN_UN_SUCC][BYTES_COUNTER][ProcedureCode_id_RICcontrol]->Increment((double)message.message.asnLength);
+#endif
sendRmrMessage(rmrMessageBuffer, message);
messageSent = true;
} else {
break;
}
case ProcedureCode_id_RICsubscription: {
+ struct E2NodeConnectionHandling e2NodeConnectionHandling;
+ bool isE2SetupRequestReceived = getE2tProcedureOngoingStatus(message.message.enodbName, e2NodeConnectionHandling);
+ mdclog_write(MDCLOG_DEBUG, "Value of isE2SetupRequestReceived is %s", isE2SetupRequestReceived == true ? "true" : "false");
+ if (!isE2SetupRequestReceived){
+ mdclog_write(MDCLOG_WARN, "E2Setup procedure is not initiated, ignoring received RICsubscription");
+ return ;
+ }
if (logLevel >= MDCLOG_DEBUG) {
mdclog_write(MDCLOG_DEBUG, "Got RICsubscription %s", message.message.enodbName);
}
+#if !(defined(UNIT_TEST) || defined(MODULE_TEST))
message.peerInfo->counters[IN_UN_SUCC][MSG_COUNTER][ProcedureCode_id_RICsubscription]->Increment();
message.peerInfo->counters[IN_UN_SUCC][BYTES_COUNTER][ProcedureCode_id_RICsubscription]->Increment((double)message.message.asnLength);
+
+ // Update E2T instance level metrics
+ message.peerInfo->sctpParams->e2tCounters[IN_UN_SUCC][MSG_COUNTER][ProcedureCode_id_RICsubscription]->Increment();
+ message.peerInfo->sctpParams->e2tCounters[IN_UN_SUCC][BYTES_COUNTER][ProcedureCode_id_RICsubscription]->Increment((double)message.message.asnLength);
+#endif
if (sendRequestToXapp(message, RIC_SUB_FAILURE, rmrMessageBuffer) != 0) {
mdclog_write(MDCLOG_ERR, "Subscription unsuccessful message failed to send to xAPP");
}
break;
}
case ProcedureCode_id_RICsubscriptionDelete: {
+ struct E2NodeConnectionHandling e2NodeConnectionHandling;
+ bool isE2SetupRequestReceived = getE2tProcedureOngoingStatus(message.message.enodbName, e2NodeConnectionHandling);
+ mdclog_write(MDCLOG_DEBUG, "Value of isE2SetupRequestReceived is %s", isE2SetupRequestReceived == true ? "true" : "false");
+ if (!isE2SetupRequestReceived){
+ mdclog_write(MDCLOG_WARN, "E2Setup procedure is not initiated, ignoring received RICsubscriptionDelete");
+ return ;
+ }
if (logLevel >= MDCLOG_DEBUG) {
mdclog_write(MDCLOG_DEBUG, "Got RICsubscriptionDelete %s", message.message.enodbName);
}
+#if !(defined(UNIT_TEST) || defined(MODULE_TEST))
message.peerInfo->counters[IN_UN_SUCC][MSG_COUNTER][ProcedureCode_id_RICsubscriptionDelete]->Increment();
message.peerInfo->counters[IN_UN_SUCC][BYTES_COUNTER][ProcedureCode_id_RICsubscriptionDelete]->Increment((double)message.message.asnLength);
+
+ // Update E2T instance level metrics
+ message.peerInfo->sctpParams->e2tCounters[IN_UN_SUCC][MSG_COUNTER][ProcedureCode_id_RICsubscriptionDelete]->Increment();
+ message.peerInfo->sctpParams->e2tCounters[IN_UN_SUCC][BYTES_COUNTER][ProcedureCode_id_RICsubscriptionDelete]->Increment((double)message.message.asnLength);
+#endif
if (sendRequestToXapp(message, RIC_SUB_FAILURE, rmrMessageBuffer) != 0) {
mdclog_write(MDCLOG_ERR, "Subscription Delete unsuccessful message failed to send to xAPP");
}
break;
}
default: {
- mdclog_write(MDCLOG_WARN, "Undefined or not supported message = %ld", procedureCode);
- message.message.messageType = 0; // no RMR message type yet
-
+ struct E2NodeConnectionHandling e2NodeConnectionHandling;
+ mdclog_write(MDCLOG_ERR, "Undefined or not supported message = %ld", procedureCode);
+ bool isE2SetupRequestReceived = getE2tProcedureOngoingStatus(message.message.enodbName, e2NodeConnectionHandling);
+ mdclog_write(MDCLOG_DEBUG, "Value of isE2SetupRequestReceived is %s", isE2SetupRequestReceived == true ? "true" : "false");
+ if (!isE2SetupRequestReceived){
+ mdclog_write(MDCLOG_WARN, "E2Setup procedure is not initiated, ignoring Unsupported Message with procedureCode = %ld", procedureCode);
+ return ;
+ }
+
+ message.message.messageType = numberZero; // no RMR message type yet
+ if (procedureCode == ProcedureCode_id_E2connectionUpdate)
+ {
+ mdclog_write(MDCLOG_ERR, "Unsupported message E2Connection Update Failure Received at E2T, procedureCode = %ld", procedureCode);
+
+ mdclog_write(MDCLOG_ERR, "Counter Incrementing for Unsupported E2Connection Update Failure Message");
+ #ifndef UNIT_TEST
+ message.peerInfo->counters[IN_UN_SUCC][MSG_COUNTER][ProcedureCode_id_E2connectionUpdate]->Increment();
+ #endif
+ }
+ else {
+ mdclog_write(MDCLOG_ERR, "Invalid Message Received at E2T");
+ mdclog_write(MDCLOG_ERR, "Counter Incrementing for Invalid Message");
+ #ifndef UNIT_TEST
+ if (message.peerInfo->e2tInternalCounters[E2T_Internal_Counters::INVALID_MESSAGE_RECEIVED])
+ {
+ mdclog_write(MDCLOG_DEBUG, "Incrementing INVALID_MESSAGE_RECEIVED Counter");
+ message.peerInfo->e2tInternalCounters[E2T_Internal_Counters::INVALID_MESSAGE_RECEIVED]->Increment();
+ mdclog_write(MDCLOG_DEBUG, "Incremented INVALID_MESSAGE_RECEIVED Counter");
+ }
+ #endif
+ }
buildJsonMessage(message);
+ break;
+ }
+ }
+}
+
+bool getE2tProcedureOngoingStatus(char *enbName, E2NodeConnectionHandling &e2NodeConnectionHandling)
+{
+ mdclog_write(MDCLOG_DEBUG, "Inside getE2tProcedureOngoingStatus, Checking for enb %s", enbName);
+ if(strcmp(enbName, "") == 0)
+ {
+ mdclog_write(MDCLOG_DEBUG, "enbName is empty");
+ return false;
+ }
+ else if(connectionHandlingPerE2NodeMap.empty())
+ {
+ mdclog_write(MDCLOG_DEBUG, "connectionHandlingPerE2Node map is empty");
+ return false;
+ }
+ else
+ {
+ std::map<std::string, E2NodeConnectionHandling>::iterator itr = connectionHandlingPerE2NodeMap.begin();
+ while (itr != connectionHandlingPerE2NodeMap.end())
+ {
+ int result = itr->first.compare(enbName);
+ if (result == 0)
+ {
+ mdclog_write(MDCLOG_DEBUG, "enb name in map :%s, status :%d", itr->first.c_str(), itr->second.e2tProcedureOngoingStatus);
+ e2NodeConnectionHandling = itr->second;
+ return true;
+ break;
+ }
+ ++itr;
+ }
+ }
+ return false;
+}
+
+void setE2ProcedureOngoingStatus(char *enbName, E2T_Procedure_States state)
+{
+ printEntryPresentInMap();
+ if(connectionHandlingPerE2NodeMap.empty())
+ {
+ mdclog_write(MDCLOG_DEBUG, "connectionHandlingPerE2Node map is empty");
+ return;
+ }
+ else
+ {
+ mdclog_write(MDCLOG_DEBUG, "Entry Present in connectionHandlingPerE2NodeMap Map");
+ std::map<std::string, E2NodeConnectionHandling>::iterator itr = connectionHandlingPerE2NodeMap.begin();
+ while(itr != connectionHandlingPerE2NodeMap.end())
+ {
+ int result = itr->first.compare(enbName);
+ if (result == 0)
+ {
+ mdclog_write(MDCLOG_DEBUG, "Key %s Found in connectionHandlingPerE2NodeMap Map, Current Procedure is %d", enbName, itr->second.e2tProcedureOngoingStatus);
+ itr->second.e2tProcedureOngoingStatus = state;
+ mdclog_write(MDCLOG_DEBUG, "Current procedure updated to %d", itr->second.e2tProcedureOngoingStatus);
+ break;
+ }
+ ++itr;
+ }
+ }
+}
+
+void insertE2SetupProcedureOngoing(char *enbName, long &transactionID)
+{
+ struct E2NodeConnectionHandling e2NodeConnectionHandling;
+ e2NodeConnectionHandling.e2tProcedureOngoingStatus = E2_SETUP_PROCEDURE_ONGOING;
+ e2NodeConnectionHandling.e2SetupProcedureTransactionId = transactionID;
+
+ std::string key(enbName);
+ printEntryPresentInMap();
+ if(connectionHandlingPerE2NodeMap.empty())
+ {
+ mdclog_write(MDCLOG_DEBUG, "connectionHandlingPerE2Node map is empty");
+ mdclog_write(MDCLOG_DEBUG, "Inserting %s to connectionHandlingPerE2NodeMap Map", enbName);
+
+ connectionHandlingPerE2NodeMap.insert(std::make_pair(key, e2NodeConnectionHandling));
+
+ mdclog_write(MDCLOG_DEBUG, "Default Value after Inserting Key for %s - Value is {e2tProcedureOngoingStatus is %d, e2SetupProcedureTransactionId: %ld}",
+ key.c_str(),
+ e2NodeConnectionHandling.e2tProcedureOngoingStatus,
+ e2NodeConnectionHandling.e2SetupProcedureTransactionId);
+ return;
+ }
+ else
+ {
+ mdclog_write(MDCLOG_DEBUG, "Entry Present in connectionHandlingPerE2NodeMap Map");
+ std::map<std::string, E2NodeConnectionHandling>::iterator itr = connectionHandlingPerE2NodeMap.begin();
+ bool enodebNameFound = false;
+ while(itr != connectionHandlingPerE2NodeMap.end())
+ {
+ int result = itr->first.compare(enbName);
+ if (result == 0)
+ {
+ enodebNameFound = true;
+ break;
+ }
+ ++itr;
+ }
+ if (enodebNameFound == false)
+ {
+ mdclog_write(MDCLOG_DEBUG, "Inserting %s to connectionHandlingPerE2NodeMap Map", enbName);
+ connectionHandlingPerE2NodeMap.insert(std::make_pair(key, e2NodeConnectionHandling));
+
+ mdclog_write(MDCLOG_DEBUG, "Default Value after Inserting Key for %s - Value is {e2tProcedureOngoingStatus is %d, e2SetupProcedureTransactionId: %ld}",
+ key.c_str(),
+ e2NodeConnectionHandling.e2tProcedureOngoingStatus,
+ e2NodeConnectionHandling.e2SetupProcedureTransactionId);
+ }
+ else
+ {
+ mdclog_write(MDCLOG_DEBUG, "Processing E2Setup Req received for same gnb - %s", enbName);
+ setE2ProcedureOngoingStatus(enbName, E2_SETUP_PROCEDURE_ONGOING);
+ }
+ }
+}
+E2T_Procedure_States currentE2tProcedureOngoingStatus(char *enbName)
+{
+ printEntryPresentInMap();
+ if(connectionHandlingPerE2NodeMap.empty())
+ {
+ mdclog_write(MDCLOG_DEBUG, "connectionHandlingPerE2Node map is empty");
+ return E2_SETUP_PROCEDURE_NOT_INITIATED;
+ }
+ else
+ {
+ mdclog_write(MDCLOG_DEBUG, "Entry Present in connectionHandlingPerE2NodeMap Map");
+ std::map<std::string, E2NodeConnectionHandling>::iterator itr = connectionHandlingPerE2NodeMap.begin();
+ while(itr != connectionHandlingPerE2NodeMap.end())
+ {
+ int result = itr->first.compare(enbName);
+ if (result == 0)
+ {
+ mdclog_write(MDCLOG_DEBUG, "Key %s Found in connectionHandlingPerE2NodeMap Map, Current Procedure is %d", enbName, itr->second.e2tProcedureOngoingStatus);
+ mdclog_write(MDCLOG_DEBUG, "%s Entry has found", enbName);
+ return itr->second.e2tProcedureOngoingStatus;
+ }
+ ++itr;
+ }
+ mdclog_write(MDCLOG_DEBUG, "No Key %s Found in connectionHandlingPerE2NodeMap Map", enbName);
+ return E2_SETUP_PROCEDURE_NOT_INITIATED;
+ }
+}
+
+bitset<sendMsgMaxBitPosition> getSendMsgBitSetValue(int procedureCode, bitset<requiredIePresentMaxBitSetPosition> isRequiredIesPresent, char* enbName)
+{
+ bitset<sendMsgMaxBitPosition> sendMsgTo(0); // Msg being sent to E2M = 0, Msg being sent to SubMgr = 1
+ switch(procedureCode)
+ {
+ case numberZero:
+ {
+ E2T_Procedure_States currentProcedureOngoing = currentE2tProcedureOngoingStatus(enbName);
+ if ((currentProcedureOngoing == E2_SETUP_PROCEDURE_COMPLETED ||
+ currentProcedureOngoing == RIC_SERVICE_UPDATE_PROCEDURE_ONGOING) &&
+ (isRequiredIesPresent.test(transactionIdIeBitSetPosition)))
+ {
+ sendMsgTo.set(sendMsgToE2MBitSetPosition);
+ }
+ else if ((currentProcedureOngoing == RIC_SUBS_PROCEDURE_ONGOING) &&
+ isRequiredIesPresent.test(ricRequestIdIeBitSetPosition) && isRequiredIesPresent.test(causeIeBitSetPosition))
+ {
+ sendMsgTo.set(sendMsgToSubMgrBitSetPosition);
+ }
+ break;
+ }
+ case ProcedureCode_id_E2setup:
+ case ProcedureCode_id_RICserviceUpdate:
+ {
+ if(isRequiredIesPresent.test(transactionIdIeBitSetPosition))
+ {
+ sendMsgTo.set(sendMsgToE2MBitSetPosition);
+ }
break;
+
+ }
+ case ProcedureCode_id_RICsubscription:
+ {
+ if(isRequiredIesPresent.test(ricRequestIdIeBitSetPosition) && isRequiredIesPresent.test(causeIeBitSetPosition))
+ {
+ sendMsgTo.set(sendMsgToSubMgrBitSetPosition);
+ }
+ break;
+ }
+ default:
+ {
+ mdclog_write(MDCLOG_ERR, "Invalid procedure code received");
+ }
+ }
+ return sendMsgTo;
+}
+
+void printEntryPresentInMap()
+{
+ mdclog_write(MDCLOG_DEBUG, "Inside printEntryPresentInMap");
+ if(connectionHandlingPerE2NodeMap.empty())
+ {
+ mdclog_write(MDCLOG_DEBUG, "connectionHandlingPerE2Node map is empty");
+ return;
+ }
+ else
+ {
+ mdclog_write(MDCLOG_DEBUG, "Entry Present in Map");
+ std::map<std::string, E2NodeConnectionHandling>::iterator it = connectionHandlingPerE2NodeMap.begin();
+ while (it != connectionHandlingPerE2NodeMap.end())
+ {
+ mdclog_write(MDCLOG_DEBUG, "Key -> { enb name in map : %s }, Value -> { e2tProcedureOngoingStatus is %d, e2SetupProcedureTransactionId is %ld }", it->first.c_str(), it->second.e2tProcedureOngoingStatus, it->second.e2SetupProcedureTransactionId);
+ ++it;
+ }
+ mdclog_write(MDCLOG_DEBUG, "All entries currently present in connectionHandlingPerE2NodeMap are printed successfully");
+ }
+}
+
+void handleE2SetupReq(ReportingMessages_t &message, RmrMessagesBuffer_t &rmrMessageBuffer, E2AP_PDU_t *pdu, long &transactionID, int streamId, Sctp_Map_t *sctpMap)
+{
+ auto logLevel = mdclog_level_get();
+
+ #ifndef UNIT_TEST
+ buildPrometheusList(message.peerInfo, message.peerInfo->sctpParams->prometheusFamily);
+ buildInternalCounterPrometheusList(message.peerInfo, message.peerInfo->sctpParams->prometheusFamily);
+ #endif
+
+ struct sctp_status status;
+ int stat_size = sizeof(status);
+ getsockopt( message.peerInfo->fileDescriptor, SOL_SCTP, SCTP_STATUS,(void *)&status, (socklen_t *)&stat_size );
+
+ if (logLevel >= MDCLOG_DEBUG) {
+ mdclog_write(MDCLOG_DEBUG, "Start from SCTP %d fd", message.peerInfo->fileDescriptor);
+ mdclog_write(MDCLOG_DEBUG, "SCTP status assoc id %d instrms %d outstrms %d", status.sstat_assoc_id,
+ status.sstat_instrms, status.sstat_outstrms);
+ }
+ if(status.sstat_outstrms == numberOne || status.sstat_instrms == numberOne)
+ {
+ message.peerInfo->isSingleStream = true;
+ message.peerInfo->singleStreamId = streamId;
+ if (status.sstat_outstrms == numberOne && status.sstat_instrms == numberOne){
+ if (logLevel >= MDCLOG_DEBUG) {
+ mdclog_write(MDCLOG_DEBUG, "Single SCTP stream is used for sending from now on, assoc id %d streamId %d #instrms %d #outstrms %d, %s",status.sstat_assoc_id, streamId, status.sstat_instrms, status.sstat_outstrms, __FUNCTION__);
+ }
+ }
+ else {
+ mdclog_write(MDCLOG_ERR, "Single SCTP stream used for sending messages even if there is a mismatch in number of in & out streams, assoc id %d instrms %d outstrms %d", status.sstat_assoc_id,
+ status.sstat_instrms, status.sstat_outstrms);
}
}
+
+ string messageName("E2setupRequest");
+ string ieName("E2setupRequestIEs");
+ message.message.messageType = RIC_E2_SETUP_REQ;
+ #ifndef UNIT_TEST
+ message.peerInfo->counters[IN_INITI][MSG_COUNTER][ProcedureCode_id_E2setup]->Increment();
+ message.peerInfo->counters[IN_INITI][BYTES_COUNTER][ProcedureCode_id_E2setup]->Increment((double)message.message.asnLength);
+
+ buildAndSendSetupRequest(message, rmrMessageBuffer, pdu); //UT - Segmentation Fault Happening.
+ #endif
+
+ mdclog_write(MDCLOG_DEBUG, "Called insertE2ProcedureOngoing: EnbName is %s and transactionID is %ld", message.message.enodbName, transactionID);
+ insertE2SetupProcedureOngoing(message.message.enodbName, transactionID);
}
/**
(unsigned char *)message.message.enodbName,
strlen(message.message.enodbName));
message.message.messageType = rmrMmessageBuffer.sendMessage->mtype = requestId;
- rmrMmessageBuffer.sendMessage->state = 0;
+ rmrMmessageBuffer.sendMessage->state = numberZero;
static unsigned char tx[32];
snprintf((char *) tx, sizeof tx, "%15ld", transactionCounter++);
rmr_bytes2xact(rmrMmessageBuffer.sendMessage, tx, strlen((const char *) tx));
return;
}
+ rmr_set_low_latency(pSctpParams.rmrCtx);
rmr_set_stimeout(pSctpParams.rmrCtx, 0); // disable retries for any send operation
// we need to find that routing table exist and we can run
if (mdclog_level_get() >= MDCLOG_INFO) {
mdclog_write(MDCLOG_DEBUG, "%s After decoding the XML to PDU", __func__ );
}
if (rval.code != RC_OK) {
+#ifdef UNIT_TEST
+ return 0;
+#endif
mdclog_write(MDCLOG_ERR, "Error %d Decoding (unpack) setup response from E2MGR : %s",
rval.code,
message.message.enodbName);
+ if (pdu != nullptr) {
+ ASN_STRUCT_FREE(asn_DEF_E2AP_PDU, pdu);
+ pdu = nullptr;
+ }
return -1;
}
}
if (er.encoded == -1) {
mdclog_write(MDCLOG_ERR, "encoding of %s failed, %s", asn_DEF_E2AP_PDU.name, strerror(errno));
+ if (pdu != nullptr) {
+ ASN_STRUCT_FREE(asn_DEF_E2AP_PDU, pdu);
+ pdu = nullptr;
+ }
return -1;
} else if (er.encoded > (ssize_t)buff_size) {
mdclog_write(MDCLOG_ERR, "Buffer of size %d is to small for %s, at %s line %d",
asn_DEF_E2AP_PDU.name,
__func__,
__LINE__);
+ if (pdu != nullptr) {
+ ASN_STRUCT_FREE(asn_DEF_E2AP_PDU, pdu);
+ pdu = nullptr;
+ }
return -1;
}
rmrMessageBuffer.rcvMessage->len = er.encoded;
+ if (pdu != nullptr) {
+ ASN_STRUCT_FREE(asn_DEF_E2AP_PDU, pdu);
+ pdu = nullptr;
+ }
return 0;
}
if (rmrMessageBuffer.rcvMessage == nullptr) {
//we have error
mdclog_write(MDCLOG_ERR, "RMR Allocation message, %s", strerror(errno));
- return -1;
+ return negativeOne;
}
// if (loglevel >= MDCLOG_DEBUG) {
// get message payload
//auto msgData = msg->payload;
- if (rmrMessageBuffer.rcvMessage->state != 0) {
+#ifdef UNIT_TEST
+ rmrMessageBuffer.rcvMessage->state = 0;
+#endif
+ if (rmrMessageBuffer.rcvMessage->state != numberZero) {
mdclog_write(MDCLOG_ERR, "RMR Receiving message with stat = %d", rmrMessageBuffer.rcvMessage->state);
- return -1;
+ return negativeOne;
}
rmr_get_meid(rmrMessageBuffer.rcvMessage, (unsigned char *)message.message.enodbName);
message.peerInfo = (ConnectedCU_t *) sctpMap->find(message.message.enodbName);
case RIC_HEALTH_CHECK_REQ:
break;
default:
+#ifdef UNIT_TEST
+ break;
+#endif
mdclog_write(MDCLOG_ERR, "Failed to send message no CU entry %s", message.message.enodbName);
- return -1;
+ return negativeOne;
}
}
if (rmrMessageBuffer.rcvMessage->mtype != RIC_HEALTH_CHECK_REQ) {
- num_of_XAPP_messages.fetch_add(1, std::memory_order_release);
+ num_of_XAPP_messages.fetch_add(numberOne, std::memory_order_release);
}
switch (rmrMessageBuffer.rcvMessage->mtype) {
if (loglevel >= MDCLOG_DEBUG) {
mdclog_write(MDCLOG_DEBUG, "RIC_E2_SETUP_RESP");
}
- if (PER_FromXML(message, rmrMessageBuffer) != 0) {
+ if (PER_FromXML(message, rmrMessageBuffer) != numberZero) {
break;
}
+#if !(defined(UNIT_TEST) || defined(MODULE_TEST))
message.peerInfo->counters[OUT_SUCC][MSG_COUNTER][ProcedureCode_id_E2setup]->Increment();
message.peerInfo->counters[OUT_SUCC][BYTES_COUNTER][ProcedureCode_id_E2setup]->Increment(rmrMessageBuffer.rcvMessage->len);
- if (sendDirectionalSctpMsg(rmrMessageBuffer, message, 0, sctpMap) != 0) {
+
+ // Update E2T instance level metrics
+ message.peerInfo->sctpParams->e2tCounters[OUT_SUCC][MSG_COUNTER][ProcedureCode_id_E2setup]->Increment();
+ message.peerInfo->sctpParams->e2tCounters[OUT_SUCC][BYTES_COUNTER][ProcedureCode_id_E2setup]->Increment(rmrMessageBuffer.rcvMessage->len);
+#endif
+ if (sendDirectionalSctpMsg(rmrMessageBuffer, message, numberZero, sctpMap) != numberZero) {
mdclog_write(MDCLOG_ERR, "Failed to send RIC_E2_SETUP_RESP");
- return -6;
+ return negativeSix;
}
+ mdclog_write(MDCLOG_DEBUG, "Successfully Sent E2_SETUP_RESP to E2Node");
+ setE2ProcedureOngoingStatus(message.message.enodbName, E2_SETUP_PROCEDURE_COMPLETED);
break;
}
case RIC_E2_SETUP_FAILURE : {
if (loglevel >= MDCLOG_DEBUG) {
mdclog_write(MDCLOG_DEBUG, "RIC_E2_SETUP_FAILURE");
}
- if (PER_FromXML(message, rmrMessageBuffer) != 0) {
+ if (PER_FromXML(message, rmrMessageBuffer) != numberZero) {
break;
}
+#if !(defined(UNIT_TEST) || defined(MODULE_TEST))
message.peerInfo->counters[OUT_UN_SUCC][MSG_COUNTER][ProcedureCode_id_E2setup]->Increment();
message.peerInfo->counters[OUT_UN_SUCC][BYTES_COUNTER][ProcedureCode_id_E2setup]->Increment(rmrMessageBuffer.rcvMessage->len);
- if (sendDirectionalSctpMsg(rmrMessageBuffer, message, 0, sctpMap) != 0) {
+
+ // Update E2T instance level metrics
+ message.peerInfo->sctpParams->e2tCounters[OUT_UN_SUCC][MSG_COUNTER][ProcedureCode_id_E2setup]->Increment();
+ message.peerInfo->sctpParams->e2tCounters[OUT_UN_SUCC][BYTES_COUNTER][ProcedureCode_id_E2setup]->Increment(rmrMessageBuffer.rcvMessage->len);
+#endif
+ if (sendDirectionalSctpMsg(rmrMessageBuffer, message, numberZero, sctpMap) != numberZero) {
mdclog_write(MDCLOG_ERR, "Failed to send RIC_E2_SETUP_FAILURE");
+ return negativeSix;
+ }
+
+ mdclog_write(MDCLOG_DEBUG, "EnbName is %s New Procedure State is %d", message.message.enodbName, E2_SETUP_PROCEDURE_COMPLETED);
+ setE2ProcedureOngoingStatus(message.message.enodbName, E2_SETUP_PROCEDURE_COMPLETED);
+ break;
+ }
+
+ case RIC_E2NODE_CONFIG_UPDATE_ACK: {
+ if (loglevel >= MDCLOG_DEBUG) {
+ mdclog_write(MDCLOG_DEBUG, "RIC_E2NODE_CONFIG_UPDATE_ACK");
+ }
+ if (PER_FromXML(message, rmrMessageBuffer) != numberZero) {
+ break;
+ }
+#if !(defined(UNIT_TEST) || defined(MODULE_TEST))
+ message.peerInfo->counters[OUT_SUCC][MSG_COUNTER][ProcedureCode_id_E2nodeConfigurationUpdate]->Increment();
+ message.peerInfo->counters[OUT_SUCC][BYTES_COUNTER][ProcedureCode_id_E2nodeConfigurationUpdate]->Increment(rmrMessageBuffer.rcvMessage->len);
+
+ // Update E2T instance level metrics
+ message.peerInfo->sctpParams->e2tCounters[OUT_SUCC][MSG_COUNTER][ProcedureCode_id_E2nodeConfigurationUpdate]->Increment();
+ message.peerInfo->sctpParams->e2tCounters[OUT_SUCC][BYTES_COUNTER][ProcedureCode_id_E2nodeConfigurationUpdate]->Increment(rmrMessageBuffer.rcvMessage->len);
+#endif
+ if (sendDirectionalSctpMsg(rmrMessageBuffer, message, numberZero, sctpMap) != numberZero) {
+ mdclog_write(MDCLOG_ERR, "Failed to send RIC_E2NODE_CONFIG_UPDATE_ACK");
return -6;
}
break;
}
+
+ case RIC_E2NODE_CONFIG_UPDATE_FAILURE: {
+ if (loglevel >= MDCLOG_DEBUG) {
+ mdclog_write(MDCLOG_DEBUG, "RIC_E2NODE_CONFIG_UPDATE_FAILURE");
+ }
+ if (PER_FromXML(message, rmrMessageBuffer) != numberZero) {
+ break;
+ }
+#if !(defined(UNIT_TEST) || defined(MODULE_TEST))
+ message.peerInfo->counters[OUT_UN_SUCC][MSG_COUNTER][ProcedureCode_id_E2nodeConfigurationUpdate]->Increment();
+ message.peerInfo->counters[OUT_UN_SUCC][BYTES_COUNTER][ProcedureCode_id_E2nodeConfigurationUpdate]->Increment(rmrMessageBuffer.rcvMessage->len);
+
+ // Update E2T instance level metrics
+ message.peerInfo->sctpParams->e2tCounters[OUT_UN_SUCC][MSG_COUNTER][ProcedureCode_id_E2nodeConfigurationUpdate]->Increment();
+ message.peerInfo->sctpParams->e2tCounters[OUT_UN_SUCC][BYTES_COUNTER][ProcedureCode_id_E2nodeConfigurationUpdate]->Increment(rmrMessageBuffer.rcvMessage->len);
+#endif
+ if (sendDirectionalSctpMsg(rmrMessageBuffer, message, numberZero, sctpMap) != numberZero) {
+ mdclog_write(MDCLOG_ERR, "Failed to send RIC_E2NODE_CONFIG_UPDATE_FAILURE");
+ return -6;
+ }
+ break;
+ }
+
case RIC_ERROR_INDICATION: {
if (loglevel >= MDCLOG_DEBUG) {
mdclog_write(MDCLOG_DEBUG, "RIC_ERROR_INDICATION");
}
+#if !(defined(UNIT_TEST) || defined(MODULE_TEST))
message.peerInfo->counters[OUT_INITI][MSG_COUNTER][ProcedureCode_id_ErrorIndication]->Increment();
message.peerInfo->counters[OUT_INITI][BYTES_COUNTER][ProcedureCode_id_ErrorIndication]->Increment(rmrMessageBuffer.rcvMessage->len);
- if (sendDirectionalSctpMsg(rmrMessageBuffer, message, 0, sctpMap) != 0) {
+
+ // Update E2T instance level metrics
+ message.peerInfo->sctpParams->e2tCounters[IN_INITI][MSG_COUNTER][ProcedureCode_id_ErrorIndication]->Increment();
+ message.peerInfo->sctpParams->e2tCounters[IN_INITI][BYTES_COUNTER][ProcedureCode_id_ErrorIndication]->Increment(rmrMessageBuffer.rcvMessage->len);
+#endif
+ if (sendDirectionalSctpMsg(rmrMessageBuffer, message, numberZero, sctpMap) != numberZero) {
mdclog_write(MDCLOG_ERR, "Failed to send RIC_ERROR_INDICATION");
- return -6;
+ return negativeSix;
}
break;
}
if (loglevel >= MDCLOG_DEBUG) {
mdclog_write(MDCLOG_DEBUG, "RIC_SUB_REQ");
}
+
+ mdclog_write(MDCLOG_DEBUG, "EnbName is %s New Procedure state is %d", message.message.enodbName, E2_SETUP_PROCEDURE_COMPLETED);
+ setE2ProcedureOngoingStatus(message.message.enodbName, E2_SETUP_PROCEDURE_COMPLETED);
+#if !(defined(UNIT_TEST) || defined(MODULE_TEST))
message.peerInfo->counters[OUT_INITI][MSG_COUNTER][ProcedureCode_id_RICsubscription]->Increment();
message.peerInfo->counters[OUT_INITI][BYTES_COUNTER][ProcedureCode_id_RICsubscription]->Increment(rmrMessageBuffer.rcvMessage->len);
- if (sendDirectionalSctpMsg(rmrMessageBuffer, message, 0, sctpMap) != 0) {
+
+ // Update E2T instance level metrics
+ message.peerInfo->sctpParams->e2tCounters[OUT_INITI][MSG_COUNTER][ProcedureCode_id_RICsubscription]->Increment();
+ message.peerInfo->sctpParams->e2tCounters[OUT_INITI][BYTES_COUNTER][ProcedureCode_id_RICsubscription]->Increment(rmrMessageBuffer.rcvMessage->len);
+#endif
+ if (sendDirectionalSctpMsg(rmrMessageBuffer, message, numberZero, sctpMap) != numberZero) {
mdclog_write(MDCLOG_ERR, "Failed to send RIC_SUB_REQ");
- return -6;
+ return negativeSix;
}
+ mdclog_write(MDCLOG_DEBUG, "EnbName is %s New Procedure state", message.message.enodbName);
+ setE2ProcedureOngoingStatus(message.message.enodbName, RIC_SUBS_PROCEDURE_ONGOING);
break;
}
case RIC_SUB_DEL_REQ: {
if (loglevel >= MDCLOG_DEBUG) {
mdclog_write(MDCLOG_DEBUG, "RIC_SUB_DEL_REQ");
}
+
+ mdclog_write(MDCLOG_DEBUG, "EnbName is %s New Procedure state is %d", message.message.enodbName, E2_SETUP_PROCEDURE_COMPLETED);
+ setE2ProcedureOngoingStatus(message.message.enodbName, E2_SETUP_PROCEDURE_COMPLETED);
+#if !(defined(UNIT_TEST) || defined(MODULE_TEST))
message.peerInfo->counters[OUT_INITI][MSG_COUNTER][ProcedureCode_id_RICsubscriptionDelete]->Increment();
message.peerInfo->counters[OUT_INITI][BYTES_COUNTER][ProcedureCode_id_RICsubscriptionDelete]->Increment(rmrMessageBuffer.rcvMessage->len);
- if (sendDirectionalSctpMsg(rmrMessageBuffer, message, 0, sctpMap) != 0) {
+
+ // Update E2T instance level metrics
+ message.peerInfo->sctpParams->e2tCounters[OUT_INITI][MSG_COUNTER][ProcedureCode_id_RICsubscriptionDelete]->Increment();
+ message.peerInfo->sctpParams->e2tCounters[OUT_INITI][BYTES_COUNTER][ProcedureCode_id_RICsubscriptionDelete]->Increment(rmrMessageBuffer.rcvMessage->len);
+#endif
+ if (sendDirectionalSctpMsg(rmrMessageBuffer, message, numberZero, sctpMap) != numberZero) {
mdclog_write(MDCLOG_ERR, "Failed to send RIC_SUB_DEL_REQ");
- return -6;
+ return negativeSix;
}
+ mdclog_write(MDCLOG_DEBUG, "EnbName is %s New Procedure State is %d", message.message.enodbName, RIC_SUBS_DEL_PROCEDURE_ONGOING);
+ setE2ProcedureOngoingStatus(message.message.enodbName, RIC_SUBS_DEL_PROCEDURE_ONGOING);
break;
}
case RIC_CONTROL_REQ: {
if (loglevel >= MDCLOG_DEBUG) {
mdclog_write(MDCLOG_DEBUG, "RIC_CONTROL_REQ");
}
+ mdclog_write(MDCLOG_DEBUG, "EnbName is %s New Procedure state is %d", message.message.enodbName, E2_SETUP_PROCEDURE_COMPLETED);
+ setE2ProcedureOngoingStatus(message.message.enodbName, E2_SETUP_PROCEDURE_COMPLETED);
+#if !(defined(UNIT_TEST) || defined(MODULE_TEST))
message.peerInfo->counters[OUT_INITI][MSG_COUNTER][ProcedureCode_id_RICcontrol]->Increment();
message.peerInfo->counters[OUT_INITI][BYTES_COUNTER][ProcedureCode_id_RICcontrol]->Increment(rmrMessageBuffer.rcvMessage->len);
- if (sendDirectionalSctpMsg(rmrMessageBuffer, message, 0, sctpMap) != 0) {
+
+ // Update E2T instance level metrics
+ message.peerInfo->sctpParams->e2tCounters[OUT_INITI][MSG_COUNTER][ProcedureCode_id_RICcontrol]->Increment();
+ message.peerInfo->sctpParams->e2tCounters[OUT_INITI][BYTES_COUNTER][ProcedureCode_id_RICcontrol]->Increment(rmrMessageBuffer.rcvMessage->len);
+#endif
+ if (sendDirectionalSctpMsg(rmrMessageBuffer, message, numberZero, sctpMap) != numberZero) {
mdclog_write(MDCLOG_ERR, "Failed to send RIC_CONTROL_REQ");
- return -6;
+ return negativeSix;
}
+ mdclog_write(MDCLOG_DEBUG, "EnbName is %s New Proedure State is %d", message.message.enodbName, CONTROL_PROCEDURE_ONGOING);
+ setE2ProcedureOngoingStatus(message.message.enodbName, CONTROL_PROCEDURE_ONGOING);
break;
}
case RIC_SERVICE_QUERY: {
if (loglevel >= MDCLOG_DEBUG) {
mdclog_write(MDCLOG_DEBUG, "RIC_SERVICE_QUERY");
}
- if (PER_FromXML(message, rmrMessageBuffer) != 0) {
+ if (PER_FromXML(message, rmrMessageBuffer) != numberZero) {
break;
}
+#if !(defined(UNIT_TEST) || defined(MODULE_TEST))
message.peerInfo->counters[OUT_INITI][MSG_COUNTER][ProcedureCode_id_RICserviceQuery]->Increment();
message.peerInfo->counters[OUT_INITI][BYTES_COUNTER][ProcedureCode_id_RICserviceQuery]->Increment(rmrMessageBuffer.rcvMessage->len);
- if (sendDirectionalSctpMsg(rmrMessageBuffer, message, 0, sctpMap) != 0) {
+
+ // Update E2T instance level metrics
+ message.peerInfo->sctpParams->e2tCounters[OUT_INITI][MSG_COUNTER][ProcedureCode_id_RICserviceQuery]->Increment();
+ message.peerInfo->sctpParams->e2tCounters[OUT_INITI][BYTES_COUNTER][ProcedureCode_id_RICserviceQuery]->Increment(rmrMessageBuffer.rcvMessage->len);
+#endif
+ if (sendDirectionalSctpMsg(rmrMessageBuffer, message, numberZero, sctpMap) != numberZero) {
mdclog_write(MDCLOG_ERR, "Failed to send RIC_SERVICE_QUERY");
- return -6;
+ return negativeSix;
}
+ mdclog_write(MDCLOG_DEBUG, "EnbName is %s New Procedure state is %d", message.message.enodbName, E2_SETUP_PROCEDURE_COMPLETED);
+ setE2ProcedureOngoingStatus(message.message.enodbName, RIC_SERVICE_UPDATE_PROCEDURE_ONGOING);
break;
}
case RIC_SERVICE_UPDATE_ACK: {
if (loglevel >= MDCLOG_DEBUG) {
mdclog_write(MDCLOG_DEBUG, "RIC_SERVICE_UPDATE_ACK");
}
- if (PER_FromXML(message, rmrMessageBuffer) != 0) {
+ if (PER_FromXML(message, rmrMessageBuffer) != numberZero) {
mdclog_write(MDCLOG_ERR, "error in PER_FromXML");
break;
}
+#if !(defined(UNIT_TEST) || defined(MODULE_TEST))
message.peerInfo->counters[OUT_SUCC][MSG_COUNTER][ProcedureCode_id_RICserviceUpdate]->Increment();
message.peerInfo->counters[OUT_SUCC][BYTES_COUNTER][ProcedureCode_id_RICserviceUpdate]->Increment(rmrMessageBuffer.rcvMessage->len);
+
+ // Update E2T instance level metrics
+ message.peerInfo->sctpParams->e2tCounters[OUT_SUCC][MSG_COUNTER][ProcedureCode_id_RICserviceUpdate]->Increment();
+ message.peerInfo->sctpParams->e2tCounters[OUT_SUCC][BYTES_COUNTER][ProcedureCode_id_RICserviceUpdate]->Increment(rmrMessageBuffer.rcvMessage->len);
+#endif
if (loglevel >= MDCLOG_DEBUG) {
mdclog_write(MDCLOG_DEBUG, "Before sending to CU");
}
- if (sendDirectionalSctpMsg(rmrMessageBuffer, message, 0, sctpMap) != 0) {
+ if (sendDirectionalSctpMsg(rmrMessageBuffer, message, numberZero, sctpMap) != numberZero) {
mdclog_write(MDCLOG_ERR, "Failed to send RIC_SERVICE_UPDATE_ACK");
- return -6;
+ return negativeSix;
}
break;
}
if (loglevel >= MDCLOG_DEBUG) {
mdclog_write(MDCLOG_DEBUG, "RIC_SERVICE_UPDATE_FAILURE");
}
- if (PER_FromXML(message, rmrMessageBuffer) != 0) {
+ if (PER_FromXML(message, rmrMessageBuffer) != numberZero) {
break;
}
+#if !(defined(UNIT_TEST) || defined(MODULE_TEST))
message.peerInfo->counters[OUT_UN_SUCC][MSG_COUNTER][ProcedureCode_id_RICserviceUpdate]->Increment();
message.peerInfo->counters[OUT_UN_SUCC][BYTES_COUNTER][ProcedureCode_id_RICserviceUpdate]->Increment(rmrMessageBuffer.rcvMessage->len);
- if (sendDirectionalSctpMsg(rmrMessageBuffer, message, 0, sctpMap) != 0) {
+
+ // Update E2T instance level metrics
+ message.peerInfo->sctpParams->e2tCounters[OUT_UN_SUCC][MSG_COUNTER][ProcedureCode_id_RICserviceUpdate]->Increment();
+ message.peerInfo->sctpParams->e2tCounters[OUT_UN_SUCC][BYTES_COUNTER][ProcedureCode_id_RICserviceUpdate]->Increment(rmrMessageBuffer.rcvMessage->len);
+#endif
+ if (sendDirectionalSctpMsg(rmrMessageBuffer, message, numberZero, sctpMap) != numberZero) {
mdclog_write(MDCLOG_ERR, "Failed to send RIC_SERVICE_UPDATE_FAILURE");
- return -6;
+ return negativeSix;
}
break;
}
if (loglevel >= MDCLOG_DEBUG) {
mdclog_write(MDCLOG_DEBUG, "RIC_E2_RESET_REQ");
}
- if (PER_FromXML(message, rmrMessageBuffer) != 0) {
+ if (PER_FromXML(message, rmrMessageBuffer) != numberZero) {
break;
}
+#if !(defined(UNIT_TEST) || defined(MODULE_TEST))
message.peerInfo->counters[OUT_INITI][MSG_COUNTER][ProcedureCode_id_Reset]->Increment();
message.peerInfo->counters[OUT_INITI][BYTES_COUNTER][ProcedureCode_id_Reset]->Increment(rmrMessageBuffer.rcvMessage->len);
+
+ // Update E2T instance level metrics
+ message.peerInfo->sctpParams->e2tCounters[IN_INITI][MSG_COUNTER][ProcedureCode_id_Reset]->Increment();
+ message.peerInfo->sctpParams->e2tCounters[IN_INITI][BYTES_COUNTER][ProcedureCode_id_Reset]->Increment(rmrMessageBuffer.rcvMessage->len);
+#endif
if (sendDirectionalSctpMsg(rmrMessageBuffer, message, 0, sctpMap) != 0) {
mdclog_write(MDCLOG_ERR, "Failed to send RIC_E2_RESET");
return -6;
if (loglevel >= MDCLOG_DEBUG) {
mdclog_write(MDCLOG_DEBUG, "RIC_E2_RESET_RESP");
}
- if (PER_FromXML(message, rmrMessageBuffer) != 0) {
+ if (PER_FromXML(message, rmrMessageBuffer) != numberZero) {
break;
}
+#if !(defined(UNIT_TEST) || defined(MODULE_TEST))
message.peerInfo->counters[OUT_SUCC][MSG_COUNTER][ProcedureCode_id_Reset]->Increment();
message.peerInfo->counters[OUT_SUCC][BYTES_COUNTER][ProcedureCode_id_Reset]->Increment(rmrMessageBuffer.rcvMessage->len);
- if (sendDirectionalSctpMsg(rmrMessageBuffer, message, 0, sctpMap) != 0) {
+
+ // Update E2T instance level metrics
+ message.peerInfo->sctpParams->e2tCounters[OUT_SUCC][MSG_COUNTER][ProcedureCode_id_Reset]->Increment();
+ message.peerInfo->sctpParams->e2tCounters[OUT_SUCC][BYTES_COUNTER][ProcedureCode_id_Reset]->Increment(rmrMessageBuffer.rcvMessage->len);
+#endif
+ if (sendDirectionalSctpMsg(rmrMessageBuffer, message, numberZero, sctpMap) != numberZero) {
mdclog_write(MDCLOG_ERR, "Failed to send RIC_E2_RESET_RESP");
return -6;
}
peerInfo->enodbName);
message.message.asndata = rmrMessageBuffer.sendMessage->payload;
mdclog_write(MDCLOG_INFO, "%s", message.message.asndata);
- if (sendRequestToXapp(message, RIC_SCTP_CONNECTION_FAILURE, rmrMessageBuffer) != 0) {
+ if (sendRequestToXapp(message, RIC_SCTP_CONNECTION_FAILURE, rmrMessageBuffer) != numberZero) {
mdclog_write(MDCLOG_ERR, "SCTP_CONNECTION_FAIL message failed to send to xAPP");
}
free(peerInfo);
+ peerInfo = nullptr;
}
}
(unsigned char *)rmrMessageBuffer.ka_message,
rmrMessageBuffer.ka_message_len);
rmrMessageBuffer.sendMessage->mtype = E2_TERM_KEEP_ALIVE_RESP;
- rmrMessageBuffer.sendMessage->state = 0;
+ rmrMessageBuffer.sendMessage->state = numberZero;
static unsigned char tx[32];
auto txLen = snprintf((char *) tx, sizeof tx, "%15ld", transactionCounter++);
rmr_bytes2xact(rmrMessageBuffer.sendMessage, tx, txLen);
+#if !(defined(UNIT_TEST) || defined(MODULE_TEST))
rmrMessageBuffer.sendMessage = rmr_send_msg(rmrMessageBuffer.rmrCtx, rmrMessageBuffer.sendMessage);
+#endif
if (rmrMessageBuffer.sendMessage == nullptr) {
rmrMessageBuffer.sendMessage = rmr_alloc_msg(rmrMessageBuffer.rmrCtx, RECEIVE_XAPP_BUFFER_SIZE);
mdclog_write(MDCLOG_ERR, "Failed to send E2_TERM_KEEP_ALIVE_RESP RMR message returned NULL");
- } else if (rmrMessageBuffer.sendMessage->state != 0) {
+ } else if (rmrMessageBuffer.sendMessage->state != numberZero) {
mdclog_write(MDCLOG_ERR, "Failed to send E2_TERM_KEEP_ALIVE_RESP, on RMR state = %d ( %s)",
rmrMessageBuffer.sendMessage->state, translateRmrErrorMessages(rmrMessageBuffer.sendMessage->state).c_str());
} else if (loglevel >= MDCLOG_DEBUG) {
break;
}
case RIC_HEALTH_CHECK_REQ: {
- static int counter = 0;
+ static int counter = numberZero;
// send message back
rmr_bytes2payload(rmrMessageBuffer.rcvMessage,
(unsigned char *)"OK",
- 2);
+ numberTwo);
rmrMessageBuffer.rcvMessage->mtype = RIC_HEALTH_CHECK_RESP;
- rmrMessageBuffer.rcvMessage->state = 0;
+ rmrMessageBuffer.rcvMessage->state = numberZero;
static unsigned char tx[32];
auto txLen = snprintf((char *) tx, sizeof tx, "%15ld", transactionCounter++);
rmr_bytes2xact(rmrMessageBuffer.rcvMessage, tx, txLen);
if (rmrMessageBuffer.rcvMessage == nullptr) {
rmrMessageBuffer.rcvMessage = rmr_alloc_msg(rmrMessageBuffer.rmrCtx, RECEIVE_XAPP_BUFFER_SIZE);
mdclog_write(MDCLOG_ERR, "Failed to send RIC_HEALTH_CHECK_RESP RMR message returned NULL");
- } else if (rmrMessageBuffer.rcvMessage->state != 0) {
+ } else if (rmrMessageBuffer.rcvMessage->state != numberZero) {
mdclog_write(MDCLOG_ERR, "Failed to send RIC_HEALTH_CHECK_RESP, on RMR state = %d ( %s)",
rmrMessageBuffer.rcvMessage->state, translateRmrErrorMessages(rmrMessageBuffer.rcvMessage->state).c_str());
- } else if (loglevel >= MDCLOG_DEBUG && ++counter % 100 == 0) {
+ } else if (loglevel >= MDCLOG_DEBUG && (++counter % 100 == numberZero)) {
mdclog_write(MDCLOG_DEBUG, "Got %d RIC_HEALTH_CHECK_REQ Request send : OK", counter);
}
}
default:
- mdclog_write(MDCLOG_WARN, "Message Type : %d is not supported", rmrMessageBuffer.rcvMessage->mtype);
+ mdclog_write(MDCLOG_ERR, "Message Type : %d is not supported", rmrMessageBuffer.rcvMessage->mtype);
message.message.asndata = rmrMessageBuffer.rcvMessage->payload;
message.message.asnLength = rmrMessageBuffer.rcvMessage->len;
message.message.time.tv_nsec = ts.tv_nsec;
buildJsonMessage(message);
- return -7;
+ return negativeSeven;
}
if (mdclog_level_get() >= MDCLOG_DEBUG) {
mdclog_write(MDCLOG_DEBUG, "EXIT OK from %s", __FUNCTION__);
}
- return 0;
+ return numberZero;
}
/**
int failedMesgId) {
// get the FD
message.message.messageType = messageBuffer.rcvMessage->mtype;
+ mdclog_write(MDCLOG_DEBUG, "message.message.messageType is %d", message.message.messageType);
auto rc = sendSctpMsg(message.peerInfo, message, sctpMap);
return rc;
}
struct epoll_event event{};
event.data.ptr = peerInfo;
event.events = events;
- if (epoll_ctl(epoll_fd, EPOLL_CTL_ADD, peerInfo->fileDescriptor, &event) < 0) {
+ if (epoll_ctl(epoll_fd, EPOLL_CTL_ADD, peerInfo->fileDescriptor, &event) < numberZero) {
+#if !(defined(UNIT_TEST) || defined(MODULE_TEST))
if (mdclog_level_get() >= MDCLOG_DEBUG) {
mdclog_write(MDCLOG_DEBUG, "epoll_ctl EPOLL_CTL_ADD (may check not to quit here), %s, %s %d",
strerror(errno), __func__, __LINE__);
}
close(peerInfo->fileDescriptor);
if (enodbName != nullptr) {
+ mdclog_write(MDCLOG_DEBUG, "Erasing Entry from Map for Key %s", enodbName);
+ removeE2ConnectionEntryFromMap(enodbName);
cleanHashEntry(peerInfo, sctpMap);
- char key[MAX_ENODB_NAME_SIZE * 2];
- snprintf(key, MAX_ENODB_NAME_SIZE * 2, "msg:%s|%d", enodbName, msgType);
+ if (peerInfo != nullptr)
+ {
+ mdclog_write(MDCLOG_DEBUG, "Not assigned peerInfo = NULL");
+ peerInfo = nullptr;
+ }
+ char key[MAX_ENODB_NAME_SIZE * numberTwo];
+ snprintf(key, MAX_ENODB_NAME_SIZE * numberTwo, "msg:%s|%d", enodbName, msgType);
if (mdclog_level_get() >= MDCLOG_DEBUG) {
mdclog_write(MDCLOG_DEBUG, "remove key = %s from %s at line %d", key, __FUNCTION__, __LINE__);
}
auto tmp = sctpMap->find(key);
if (tmp) {
free(tmp);
+ tmp = nullptr;
sctpMap->erase(key);
}
} else {
- peerInfo->enodbName[0] = 0;
+ peerInfo->enodbName[numberZero] = numberZero;
}
mdclog_write(MDCLOG_ERR, "epoll_ctl EPOLL_CTL_ADD (may check not to quit here)");
- return -1;
+ return negativeOne;
+#endif
}
- return 0;
+ return numberZero;
}
/**
struct epoll_event event{};
event.data.ptr = peerInfo;
event.events = events;
- if (epoll_ctl(epoll_fd, EPOLL_CTL_MOD, peerInfo->fileDescriptor, &event) < 0) {
+ if (epoll_ctl(epoll_fd, EPOLL_CTL_MOD, peerInfo->fileDescriptor, &event) < numberZero) {
if (mdclog_level_get() >= MDCLOG_DEBUG) {
mdclog_write(MDCLOG_DEBUG, "epoll_ctl EPOLL_CTL_MOD (may check not to quit here), %s, %s %d",
strerror(errno), __func__, __LINE__);
}
close(peerInfo->fileDescriptor);
+ mdclog_write(MDCLOG_DEBUG, "Erasing Entry from Map for Key %s", enodbName);
+ removeE2ConnectionEntryFromMap(enodbName);
cleanHashEntry(peerInfo, sctpMap);
- char key[MAX_ENODB_NAME_SIZE * 2];
- snprintf(key, MAX_ENODB_NAME_SIZE * 2, "msg:%s|%d", enodbName, msgType);
+ if (peerInfo != nullptr)
+ {
+ mdclog_write(MDCLOG_DEBUG, "Not assigned peerInfo = NULL");
+ peerInfo = nullptr;
+ }
+ char key[MAX_ENODB_NAME_SIZE * numberTwo];
+ snprintf(key, MAX_ENODB_NAME_SIZE * numberTwo, "msg:%s|%d", enodbName, msgType);
if (mdclog_level_get() >= MDCLOG_DEBUG) {
mdclog_write(MDCLOG_DEBUG, "remove key = %s from %s at line %d", key, __FUNCTION__, __LINE__);
}
auto tmp = sctpMap->find(key);
if (tmp) {
free(tmp);
+ tmp = nullptr;
+ sctpMap->erase(key);
}
- sctpMap->erase(key);
mdclog_write(MDCLOG_ERR, "epoll_ctl EPOLL_CTL_ADD (may check not to quit here)");
- return -1;
+ return negativeOne;
}
- return 0;
+ return numberZero;
}
int sendRmrMessage(RmrMessagesBuffer_t &rmrMessageBuffer, ReportingMessages_t &message) {
buildJsonMessage(message);
-
+#ifndef UNIT_TEST
rmrMessageBuffer.sendMessage = rmr_send_msg(rmrMessageBuffer.rmrCtx, rmrMessageBuffer.sendMessage);
-
+#else
+ rmrMessageBuffer.sendMessage->state = RMR_ERR_RETRY;
+#endif
if (rmrMessageBuffer.sendMessage == nullptr) {
rmrMessageBuffer.sendMessage = rmr_alloc_msg(rmrMessageBuffer.rmrCtx, RECEIVE_XAPP_BUFFER_SIZE);
mdclog_write(MDCLOG_ERR, "RMR failed send message returned with NULL pointer");
- return -1;
+ return negativeOne;
}
- if (rmrMessageBuffer.sendMessage->state != 0) {
+ if (rmrMessageBuffer.sendMessage->state != numberZero) {
char meid[RMR_MAX_MEID]{};
if (rmrMessageBuffer.sendMessage->state == RMR_ERR_RETRY) {
- usleep(5);
- rmrMessageBuffer.sendMessage->state = 0;
+ usleep(numberFive);
+ rmrMessageBuffer.sendMessage->state = numberZero;
mdclog_write(MDCLOG_INFO, "RETRY sending Message type %d to Xapp from %s",
rmrMessageBuffer.sendMessage->mtype,
rmr_get_meid(rmrMessageBuffer.sendMessage, (unsigned char *)meid));
+#ifndef UNIT_TEST
rmrMessageBuffer.sendMessage = rmr_send_msg(rmrMessageBuffer.rmrCtx, rmrMessageBuffer.sendMessage);
+#endif
if (rmrMessageBuffer.sendMessage == nullptr) {
mdclog_write(MDCLOG_ERR, "RMR failed send message returned with NULL pointer");
rmrMessageBuffer.sendMessage = rmr_alloc_msg(rmrMessageBuffer.rmrCtx, RECEIVE_XAPP_BUFFER_SIZE);
- return -1;
- } else if (rmrMessageBuffer.sendMessage->state != 0) {
+ return negativeOne;
+ } else if (rmrMessageBuffer.sendMessage->state != numberZero) {
mdclog_write(MDCLOG_ERR,
"Message state %s while sending request %d to Xapp from %s after retry of 10 microseconds",
translateRmrErrorMessages(rmrMessageBuffer.sendMessage->state).c_str(),
}
void buildJsonMessage(ReportingMessages_t &message) {
+#ifdef UNIT_TEST
+ jsonTrace = true;
+#endif
if (jsonTrace) {
message.outLen = sizeof(message.base64Data);
base64::encode((const unsigned char *) message.message.asndata,
}
return str;
}
+int fetchStreamId(ConnectedCU_t *peerInfo, ReportingMessages_t &message)
+{
+ auto loglevel = mdclog_level_get();
+ int streamId = INVALID_STREAM_ID;
+ if(message.peerInfo->isSingleStream != false)
+ {
+ streamId = message.peerInfo->singleStreamId;
+ if (loglevel >= MDCLOG_DEBUG) {
+ mdclog_write(MDCLOG_DEBUG, "Send SCTP message for SINGLE_STREAM streamId %d , Messeage Type %d ,%s",
+ streamId,message.message.messageType, __FUNCTION__);
+ }
+ return streamId;
+ }
+ int msgType = message.message.messageType;
+ switch (msgType){
+ case RIC_E2_RESET_REQ:
+ case RIC_E2_RESET_RESP:
+ case RIC_E2_SETUP_RESP:
+ case RIC_E2_SETUP_FAILURE:
+ case RIC_ERROR_INDICATION:
+ case RIC_SERVICE_QUERY:
+ case RIC_SERVICE_UPDATE_ACK:
+ case RIC_SERVICE_UPDATE_FAILURE:
+ streamId = numberZero;
+ break;
+ case RIC_SUB_REQ:
+ case RIC_SUB_DEL_REQ:
+ case RIC_CONTROL_REQ:
+ streamId = numberOne;
+ break;
+ default:
+ streamId = numberZero;
+ break;
+ }
+ if (loglevel >= MDCLOG_DEBUG) {
+ mdclog_write(MDCLOG_DEBUG, "Send SCTP message for streamId %d Messeage Type %d, %s",
+ streamId, message.message.messageType, __FUNCTION__);
+ }
+ return streamId;
+}
Code Review / ric-plt / e2.git / blobdiff